RU2105353C1 - Indicator - Google Patents

Abstract

FIELD: information displaying equipment, in particular, computer equipment for visualization of output data, information board systems which display information on stadiums, airports, railway stations and so on. SUBSTANCE: information member of indicator is designed as prism which is made from non- magnetic material and is mounted complex-shape housing cell for free movement in cell and rotation about prism axis. In addition permanent magnet of electric drive is located inside information member. Electromagnet is designed mobile and is located before information member. EFFECT: simplified design, increased number of displayed colors, decreased size and manufacturing cost. 4 dwg

Description

 The invention relates to techniques for demonstrating information and can be used in computing devices for visualizing output data, as well as in information display systems for recording and visual display of information at stadiums, airports, train stations, etc.

 A known indicator containing an electromagnet, a blinker made in the form of a plate, the surfaces of which are painted in contrasting colors, two flat permanent magnets, the core of the electromagnet is made in a U-shape, the blinker plate is made of non-magnetic material, on the opposite surfaces of which are fixed flat against one another magnets with like poles towards each other [1].

 A disadvantage of the known indicator is that each blinker has its own drive, and this in turn leads to an increase in the size of the control system and the cost of the entire information display device as a whole.

 In addition, the known design of the indicator does not allow to increase the informative capacity, due to the limited number of displayed colors.

 As a prototype, an indicator is selected that contains a housing with a viewing window and an axis on which an information element is mounted made in the form of a hollow cylindrical glass with a rotation limiter, an electric drive consisting of a permanent magnet and an electromagnet, a support made in the form of sliding bearings [2] .

 A disadvantage of the known indicator is the complex design of the information element, which also requires an electric drive for each information element separately. In addition, in this indicator design, the number of displayed colors is limited.

 The objective of the proposed technical solution is aimed at simplifying the design of the indicator, increasing the number of displayed colors, as well as reducing its overall performance and cost.

 The problem is solved in that in the indicator containing the housing, a multi-color information element and an electric drive consisting of a permanent magnet and an electromagnet, the information element, made in the form of a prism of non-magnetic material, is installed in the figured cell of the housing with the possibility of free movement and rotation around it the axis of the prism, while the permanent magnet of the electric drive is placed inside the information element, and the electromagnet is made movable and installed in front of the information element.

 Distinctive features of the proposed indicator are the implementation of the information element in the form of a prism of non-magnetic material, its installation in a figured cell of the housing with the possibility of free movement and rotation around the axis of the prism, the placement of a permanent magnet inside the information element, the electromagnet moving and placing it in front of the information element.

 The implementation of the information element in the form of a prism allows you to increase the number of displayed colors, which results in an increase in the informative capacity of the indicator and the information display device as a whole.

 In addition, the proposed indicator has high adaptability due to the implementation of the information element of non-magnetic material, for example, polystyrene by casting.

 Placing a permanent magnet inside the information element and installing an electromagnet made movable in front of the information element allowed scanning successively one after the other of all indicators forming the scoreboard with one single electromagnet, which simplifies the design, reduces its overall dimensions and cost by reducing the number of electromagnets .

 The invention is illustrated by drawings.

In FIG. 1 presents an information board containing indicators;
in FIG. 2 - indicator, section AA in figure 1;
in FIG. 3 - indicator, section BB in figure 2;
in FIG. 4 is a sequence of moving an information element in a figure cell of the housing.

 The indicator contains a housing 1, with a figured cell 2, in which an information element 3 is installed, made in the form of a prism (as an example in the drawings, the information element is presented in the form of a trihedral prism), each face of which is painted in a certain color. A permanent magnet 4 is placed inside the information element 3. The electromagnet 5 (not shown in FIG. 1) containing the core 6 is movable and is installed in front of the information element 3. Between the information element 3 and the electromagnet 5 there is a glass front panel 7. The figured cell 2 has step 8. Indicator 9 is part of the information board 10.

 The indicator works as follows.

 At the time of supply of voltage, the electromagnet 5 begins to move along the glass front panel 7 of the board 10 (see figure 2), consisting of indicators (see Fig. 1). When the electromagnet is opposite the information element 3 of the indicator, a current pulse is generated in its winding, creating a magnetic flux magnetizing the core 6 in the same direction as the permanent magnet 4, and on the core 6 the pole N is opposite the pole N of the permanent magnet 4 (see figure 3).

 At the moment of interaction of the magnetic flux of the electromagnet 5 with the permanent magnet 4, the information element 3 is repelled from the front panel and begins to move upward along the oblique lower edge of the cell 2 in the curved cell 2 (see Fig. 4a-e), ending in step 8, which allows transforming translational movement of information element 3 into rotational motion. In this case, the information element will rotate by one face. With further advancement of the electromagnet 5 along the panel of the panel (figure 2), the action of the electromagnet 5 is terminated, and under the action of gravity, the information element 3 returns down to its original stable position. In this case, the color of the observed face changes. The advanced electromagnet 5 is already acting on the next information element 3 of the board 10.

 Thus, the implementation of the electromagnet moving led, in turn, to a significant reduction (compared with the prototype) of the number of electromagnets, allowed to simplify the design of the indicator and reduce its cost.

Claims (1)

 An indicator comprising a housing, a multi-color information element and an electric drive consisting of a permanent magnet and an electromagnet, characterized in that the information element, made in the form of a prism of non-magnetic material, is installed in the figure cell of the housing with the possibility of free movement and rotation in it around the axis of the prism, wherein the permanent magnet of the electric drive is located inside the information element, and the electromagnet is made movable and installed in front of the information element.

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