RU2122241C1 - Display - Google Patents

Abstract

FIELD: information displaying equipment, in particular, computer engineering equipment for visualization of output data, information boards for stadiums, airports, railroad terminals, and so on. SUBSTANCE: device has housing with display window, mobile hollow corner-shaped profile which serves as information carrier, stationary electromagnet and permanent magnet which is split into two equal members and is mounted on magnetic circuit which is mounted on information carrier. Device operations involve interaction of electromagnet to permanent magnet. EFFECT: increased reliability, simplified design, decreased cost of display. 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 indication element for displaying information having a raster cell containing two hinged plates mounted on the same board in U-shaped guides and made with sections of a permanent magnet asymmetrically positioned relative to the axis of rotation, and the contacting surfaces of the plates are made in the same color, the magnetic polarities of the magnetic sections of the raster plates cells located one below the other have a counter direction. A change in the color of the indication is achieved by throwing the plates, which is carried out using an electromagnet located under the base plate (see, for example, USSR copyright certificate N 427536 MKI G 9 F 11/06, N 798958, N 824272 MKI G 9 F 11/34, and also patents: USA N 3469258 NKI 340-373 for 1971; USSR N 451259, MKI G 06 K 15/18, Hungary NN 165588, 158828 MKI G 09 F 9/40; France N 1465490 MKI G 9 F 9/00 for 1978).

 The disadvantages of these indication elements are the low reliability of the displayed information due to the strong mutual influence of neighboring electromagnets, as well as the demagnetization fields of neighboring permanent magnets, and as a result of this, the inability of the individual display elements to come together due to mutual interference and interference, which makes them insufficiently reliable work. In addition, a higher amount of electricity is required to throw the plates.

 Also known is a rotating electromagnet indicator element containing a fixed base with electromagnets fixed to it and a permanent magnet mounted on a movable housing, which is a data carrier (see US patent N 4001815, NKI 340-373 from 1977).

 In this indicator, a permanent magnet is located in the middle, and electromagnets are radially fixed on the periphery.

 The disadvantage of this indicator is that the external placement of electromagnets increases the mutual influence of closely spaced elements - indicators on each other, increases the dimensions of the indicator, as well as the energy consumption and complicates the design of the indicator.

 Also known indicator by author. St. N 466524 from 1976 C. G 9 F 11/23, comprising a panel with a viewing window and racks, a fixed axis with a hollow multi-color information element mounted on it and a control unit made in the form of electromagnets interacting with a magnetized disk mounted horizontally on the inner surface of the hollow multicolor information element.

An indicator is also known, taken as a prototype, comprising a housing and placed in an opening of the front of the panel, inside the housing there is an axis on which a two-color information element is movably mounted, the rotation limiter of which is made in the form of a protrusion, and fixed - the indicator housing with an electric drive, consisting of a constant a magnet and an electromagnet made with a magnetic circuit protruding from the electromagnet coil in opposite directions, while the core of the electromagnet is fixed on an axis mounted in bearings mounted in the housing member, the displacement of the permanent magnet poles and an electromagnet with respect to each other in the extreme positions of the angle of 50 ^°> α> 0 ^° (see., e.g., AS N 1833914 from 11.02.89, the A1, cl. G 9 F 11/23).

 The disadvantage of this technical solution is that when the electromagnet is turned off, the established information is “erased” due to the fact that one of the two permanent magnets is made of a larger mass, and under the action of gravity the information element rotates downward around the axis, since the mass ratio 1: 1,2, the mutual influence of the magnetic fields of two adjacent indicators.

 The aim of the invention is to increase the reliability of the indicator, simplifying the design and cheaper indicator as a whole.

 This goal is achieved by the fact that the permanent magnet is made of two equal parts, fixed on opposite sides of the magnetic circuit, fixed in the information element.

 In FIG. 1 presents a block of information indicators; in FIG. 2 is an indicator, a longitudinal section AA of FIG. one; in FIG. 3 is a section BB of FIG. 2; in FIG. 4 is a section BB of FIG. 2.

The indicator block contains a panel 1 in which the indicator housing 2 is fixed. In the case 2, viewing windows 3 are made, each for one indicator. An axis 4 is located inside the indicator, on which the two-color information element 5, made of an angular profile, is movably mounted; the profile can also be made cylindrical. The outer part of the profile of the shelves of element 5 is painted “c” in black, “d” in lemon yellow. Information element 5 - shelves (see Fig. 4) has a rotation limit, leaning in extreme positions on the stationary indicator housing 2. The movable part of the electric drive - rotation of element 5 consists of permanent magnets 6 made of two equal parts and fixed on opposite sides of the magnetic circuit 7, which is fixed in turn in the information element 5, and fixed, consisting of an electric coil 8, in which a core 9 is installed, the poles of which protrude from the coil 8 in opposite directions. A plate 10 made of a dielectric is mounted on the protruding sides of the core 9. In the plate 10, the axis 4 and the magnetic cores 11 are fixed, based on the poles of the core 9 (see Fig. 3). In turn, the axis 4 is movably mounted in the bearings 12 of the information element 5. The poles of the core 9 and the poles of the permanent magnets 6 are offset relative to each other by an angle α, 50 ^° >α> 0 ^° in the extreme positions (see Fig. 3).

 The indicator works as follows. In the de-energized state, the part of the element 5, covered with black enamel, from the observer's side in the direction of the arrow “E” is visible in the window 3 and is stationary, since the pole “N” of the magnet 6 is attracted to the iron of the magnetic circuit 11 and the core 9, just like the pole "S" on the other hand.

When an electromagnet 8 is connected to the power supply via terminals 13 (see Fig. 4), the core 9 is magnetized in the same direction as the permanent magnet 6, and on the core 9, the pole "N" is opposite the pole "N" of the magnetic circuit 11 (similarly for pole "S"). Mutually identical poles repel, therefore, the permanent magnet 6 and the associated element 5 rotates along the arrow "a" (see Fig. 3) from one extreme position of the shelf of the element 5 to contact with the indicator housing 2 - the other extreme position. Thus, the part of the element 5, painted in black, will turn inside the indicator, and in its place in the window 3 will appear another part of the element 5, painted in lemon yellow. After this, the power supply from the coil 8 of the electromagnet is removed and the permanent magnets 6 will be attracted by their poles to the core 9 and the magnetic cores 11, thereby the element 5 will again be stationary, i.e. self-fixing. When changing the poles of the power source, this process occurs in the reverse order. The installation angle α ′ of element 5 is necessary:
a) to eliminate the "blind spot",
b) to significantly reduce the magnetic interference of the indicators on each other due to the fact that the magnetic field is directed outside the indicator. The separation of the magnet 6 into two parts can further reduce the interaction of the indicators on each other, because the magnetic core 7 dampens this mutual influence and transfers the magnetic flux from one pole of the core 9 to another.

Claims (1)

An indicator comprising a housing located in an opening of the front of the panel, an axis is placed inside the housing on which a two-color information element is mounted movably with a permanent magnet fixed therein, the information element being configured to limit rotation due to the stop in extreme positions in the housing located in the case is an electromagnet whose core in extreme positions is offset relative to the poles of the permanent magnet by an angle of 50 ^o >α> 0 ^o , characterized in that the permanent magnet is made of two equal large parts fixed on opposite sides of the magnetic circuit.

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