RU2159962C1 - Rotating information display - Google Patents

Abstract

FIELD: information boards. SUBSTANCE: device has housing, rotating electric motor, rotating indication unit, which has light emitters, at least one cantilever for mounting light emitters and emission control unit, which has separate control circuits for each light emitter. They are stationary connected to inputs of respective emitters. In addition device has power supply unit, which is stationary mounted in housing and is connected to emission control unit through mobile electric contacts. Cantilever for mounting of light emitters has base and at least two holders of light emitters. Cantilever for mounting of light emitters is located on balancing holder, which is mounted on shaft, and is asymmetric with respect to rotation axis, so that holders of light emitters are at different distance from rotation axis. Thus, they provide rotation bodies of two different shapes, which provide shape of information surfaces. This design results in possibility of displaying information in multiple levels. EFFECT: increased functional and advertising-image capabilities. 4 cl, 4 dwg

Description

 The invention relates to electrical engineering and electronics, in particular to rotating information devices designed to display information (letters, numbers, graphic, volumetric and other images) in space using light emitters. The device allows you to create the illusion that the above elements of dynamic information appear, are and change in airspace without visible support, and to implement on the basis of the described device two-and three-dimensional spatial images (creeping line, picture in picture, rotating globe and others) . The device’s action is based on the phenomenon of visual memory in human vision, when a physically disappearing image for a certain time is perceived by the viewer as existing.

 A rotating information device is known, comprising a housing in which a rotating electric motor with a bearing shaft is mounted, a rotating display unit including light emitters, a rotating LED mount bracket mounted on the motor shaft, a light emitting radiation control unit and a power supply. The control unit for the emission of light emitters is placed in a fixed casing of the device. The light emitters are located on a rectangular rotating block, which is made symmetrical about the axis of rotation and represents a body of revolution - a cylinder. Power is supplied to the light emitting radiation control unit directly from the power supply, and light emitting control signals are supplied from the control unit to the light emitters via a movable electromechanical connection (Japanese Patent No. 1-32992, G 09 F 13/20, 07/11/1989).

 A disadvantage of the known device is the inability to display a large amount of information due to very large difficulties arising from an increase in the number of light emitters and the formation of functional groups with separate control from them. This is due to the complexity of transmitting a large number of control signals from a fixed control system to a large number of control objects (light emitters) through movable electromechanical contacts. In addition, in the known device, due to the axisymmetric configuration of the rotating display unit, both of its side generators describe only one surface of rotation, therefore, if light emitters are placed on both side generators, the amount of displayed information does not increase.

 These disadvantages are partially eliminated in the rotating information device described in German patent application N 19630011, G 09 F 9/33, 01/29/1996. In this device, the rotating bracket is a rotating disk with one or more rods mounted on it, on which the light emitters are mounted, and the light emitting radiation control signals are sent directly from the control unit to the light emitters through movable electromagnetic or optoelectronic electrical contact connections.

 A disadvantage of the known device is the insufficient amount of displayed information associated with the complexity and high cost of electromagnetic or optoelectronic transmission of control signals to a large number of groups of light emitters. Moreover, it is difficult to do for each light emitter separately.

 The closest in technical essence to the proposed device is a rotating information device described in application EPO N 0887783, G 09 G 3/00, 1998. The device includes a housing, a rotating motor with a shaft, a rotating display unit, including light emitters, at least one a bracket for attaching light emitters and a control unit for emitting light emitters, having separate control circuits for each light emitter, fixedly connected to the inputs of the respective light emitters, and a power supply unit, fortified motionless in the housing and connected to the light emitting radiation control unit through movable electrical contacts, the light emitter mounting bracket includes a base and at least two light emitter holders located thereon.

 The disadvantages of the known device is the insufficient amount of information displayed due to the fact that it provides the formation of only one information surface, as well as the complexity of the design of the device.

 The technical result of this invention is to expand the information and advertising-image functional capabilities of a rotating information device by providing the possibility of multi-level display of information, as well as reducing the cost, simplifying the design and increasing the reliability of the device.

 The indicated technical result is achieved in that in a rotating information device including a housing, a rotating motor with a shaft, a rotating display unit including light emitters, at least one light emitter mounting bracket and a light emitter control unit having separate control circuits for each light emitter, motionless connected to the inputs of the respective light emitters, and a power supply fixed motionless in the housing and connected to the light emission control unit of emitters through movable electrical contacts, the light emitter mounting bracket includes a base and at least two light emitter holders located on it, the light emitter mounting bracket is mounted on a balancing holder mounted on the motor shaft and is asymmetric with respect to the rotation axis so that the light emitter holders are different from axis of rotation and are the generators of at least two bodies of revolution of different shapes, defining the shape of the information surfaces.

 The specified technical result is also achieved by the fact that in the rotating information device, the light emitter holder, more remote from the axis of rotation, is made in the form of a straight segment parallel to the axis of rotation and forming a cylindrical information surface, and the light emitter holder, less remote from the axis of rotation, is made in the form arc - forming a spherical information surface with a center located on the axis of rotation, and the middle of the mentioned segment and the center of the mentioned arc are in one second plane perpendicular to the axis of rotation.

 The specified technical result is also achieved by the fact that in the rotating information device, said light emitter holder, made in the form of a straight line segment and fixed at one end on the bracket base, with its free end pointing downward, the device further has a light emitter holder, made in the form of a straight line segment directed upward parallel to the axis rotation, and which forms an additional cylindrical information surface located on the side of the bracket from the side relative to the axis of rotation, opposite with respect to the holder of the light emitters in the form of an arc, at a distance from the axis of rotation less than the radius of said arc.

 The light emitters may be located on the outer and / or inner sides of the bracket holders. In the proposed indicator device, light emitters of one or more glow colors are used.

 As light emitters, LEDs, incandescent lamps, electric vacuum or gas-discharge light sources can be used.

 Using an asymmetric bracket allows you to increase the number of information surfaces. The bracket may have holders of light emitters of various shapes depending on the selected type of information surface, which upon rotation of the proposed information device becomes the generators of these information surfaces.

 In particular, the shape of the light emitter holders shown in FIG. 1 bracket allows you to form an image on the ball (for example, a globe or other stylized image of the globe), and diametrically around it a narrower cylindrical image of sign information in the form of a running line.

 In addition, to increase the number of information surfaces, the proposed information device may contain several forming brackets located in different planes.

 The essence of the invention is illustrated by drawings.

 Figure 1 shows a schematic illustration of the proposed rotating information device, where: 1 - housing, 2 - electric motor, 3 - bearing shaft of the electric motor, 4 - balancing holder, 5 - rotating display unit, 6 - bracket for attaching light emitters, 7 - base of the bracket, 8 and 9 - shape-forming holders of light emitters, 10 - light emitters, 11 - light emitter control unit, 12 - power supply unit, 13 - sliding electrical contact, 14 - contact sleeve, 15 - soft motor mount.

 In FIG. 2 shows the bracket 6 for mounting the light emitters 10 with three holders of light emitters 8, 9 and 16.

 In FIG. Figure 3 shows the functional diagram of the control unit for light emitters, where: 17 is a storage device, 18 is a central processor, 19 is an output register block, 20 is a scan start reference circuit consisting of a fixed part 21 and a receiving part 22, 23 - a power supply stabilization unit.

 In FIG. 4 is an illustration of the formation of an elementary image of information during operation of the proposed rotating information device.

 The proposed rotating information device (Fig. 1) contains a housing 1, a rotating motor 2 with a bearing shaft 3, a balancing holder 4 mounted on the shaft 3, a rotating display unit 5, including a bracket 6 for mounting light emitters and a control unit 11 for emitting light emitters 10, as well as a unit power supply 12, fixed motionless in the housing of the device 1. The bracket 6 for attaching the light emitters 10, consists of a base 7 and two holders 8 and 9, on which light emitters 10 are connected, connected to the light control unit 11 radiators 10. The power supply 12 is fixedly mounted in the housing of the device 1 and is connected to the control unit 11 of the light emitters 10 through a sliding electrical contact 13 and a contact sleeve 14, mounted on the shaft 3 of the electric motor 2. The bracket 6 for fastening the light emitters 10 is made asymmetric with respect to the axis of rotation of the information device in this way that its opposite holders of light emitters 8 and 9 differ from each other in shape and are differently removed from the axis of rotation. The holder 8 of the light emitters 10, less remote from the axis of rotation, is made in the form of an arc forming a spherical information surface with a center located on the axis of rotation, and the holder 9 of the light emitters 10, more remote from the axis of rotation, is made in the form of a straight line parallel to the axis of rotation and which is the generatrix of the cylindrical information surface. The middle of said segment and the center of said arc lie in one plane perpendicular to the axis of rotation.

 The bracket for attaching light emitters may include three holders 8, 9 and 16 of light emitters 10 (Fig. 2), in which the holder 8 of light emitters 10, less remote from the axis of rotation, is made in the form of an arc - forming a spherical information surface with a center located on the axis of rotation, and the holder 9 of the light emitters 10, more remote from the axis of rotation, made in the form of a straight line parallel to the axis of rotation and which forms a cylindrical information surface, is fixed at one end on the base 7 of the bracket 6, and one end pointing down. The additional holder 16 of the light emitters 10, made in the form of an upward directed straight segment parallel to the axis of rotation and forming an additional information cylindrical surface, is located on the base of the bracket from the side, relative to the axis of rotation, opposite to the holder of the light emitters in the form of an arc, at a distance from an axis of rotation smaller than the radius of said arc.

 Each light emitter is connected with one contact to the common pole of the power supply unit 12, and the other through an individual conductor with the corresponding output of the control unit 11.

 The light emitters can be located on the outside of the holders of the light emitters of the forming bracket, or on the inner, or on the outer and inner sides of the holders of the light emitters.

 The balancing holder 4 is used to balance the rotating display unit 5 relative to the axis of rotation of the bracket 6.

 To prevent vibration of the proposed information device, which may occur when its size increases, the device, in addition to the balancing holder 4, further comprises a soft suspension 15 of the motor 2 in the housing 1.

 The proposed rotating information device operates as follows.

 When you turn on the proposed information device, power from the power supply 12 is supplied to the electric motor 2, and also through the shaft of the motor 3 and the sliding electrical contact 13 with the contact sleeve 14 to the rotating unit 5.

 The electric motor 2 rotates the display unit 5 and provides a circular scan of the image.

 Since the voltage from the power supply unit 12 transmitted through the shaft of the motor 3 and the sliding electrical contact 13 with the contact sleeve 14 to the light emitter control unit 10 of the rotating unit 5 is, as a rule, constant or variable low-frequency, this voltage is transmitted through the sliding electrical contact 13 without significant cost and interference for other circuits.

 Each light emitter is connected with one contact to the common pole of the power supply 12, and the other through an individual conductor to the corresponding output of the control unit 11, which at the right time connects it to the other pole.

 The control unit 11 of the light emitters 10 forms a set of sequences of control signals for each light emitter separately, in accordance with a specific position in the space of the bracket 6, the position of this light emitter on the holders of the light emitters and the information set for display.

 Joint rotation of the control unit and the bracket with light emitters allows you to connect them together with a conventional multi-conductor loop and not use complex contactless methods of signal transmission. This allows you to transmit independently a very large number of signals (respectively, for a very large number of light emitters) using cheap conventional conductors, that is, it simplifies the design of the proposed device, reduces its cost and increases reliability.

 Due to this, when the proposed device is implemented, it is possible to control a large number of light emitters and their functional groups, which expands the information and functional capabilities of the device.

 Using the bracket for attaching light emitters with asymmetric shape-setting holders of light emitters allows, firstly, to create several information surfaces at the same time, thereby increasing the amount of visual information displayed with the small dimensions of the proposed information device, and secondly, to create several information surfaces of various shapes simultaneously, to create from them original compositions with enhanced (synergistically increased) advertising and image opportunities.

 The housing 1 of the proposed rotating indicator device from vibrations of the moving parts of the device is isolated by a soft suspension 15 of the motor 2.

 The balancing of the rotating unit 5 is carried out by moving the bracket 6 for attaching the light emitters 10 relative to the axis of rotation of the information device. For mounting the bracket 6 use a balancing holder 4.

 The control unit 11 of the glow of the light emitters 10 provides the formation of a complete image of the minimum elements. Its functional diagram is shown in FIG. 3. All information about the image is located in the storage device 17. Before the rotary unit 5 passes through each sector, the central processor 18 places information on the state of all light emitters (on / off) from the corresponding area of the storage device 17 into the block of output registers 19 for the duration of the passage of the sector . The output registers directly electrically control the light emitters 10 in accordance with the information placed in the block of output registers 19.

 Including the device, power is supplied to the engine 2, and also through the sliding electrical contact 13 and the shaft of the engine 3 to the rotating unit 5. The engine 2 starts to rotate the rotating unit 5. The power stabilization unit 23 supplies stabilized DC power to all elements of the circuit. The central processor 18 expects an impulse of binding and upon its arrival begins the process.

 When the device is turned on, the control unit for 2 s measures the speed of the display unit to calculate the duration of the minimum image element. After that, the process of displaying information begins. In the event of microprocessor malfunctions, a reset pulse is automatically generated to restart the circuit.

In order for the image to be formed each time in the same place, the reference scheme for the beginning of the sweep 20 is used. It consists of two parts - the fixed 21 and the receiving 22. The fixed part 21 is located on the device 1, and the receiving 22 on the rotating unit 5. When passing the receiving part of the sweep circuit 22 in the immediate vicinity of the stationary 21, in the first a binding pulse is generated, which serves as a signal for the central processor 18 to start the image sweep. Having received a binding pulse from the binding circuit 20, the central processor 18 places information on the state of all light emitters 10 corresponding to the first image sector in the block of output registers 19. After the sector display time (T _selection. = 1 / F • N, where F is the rotation frequency, and N is the number of sectors of image decomposition), the central processor 18 places the status information of all light emitters 10 in the block of output registers 19 corresponding to the second sector image, and so on, until the rotating unit 5 makes a complete revolution and a new impulse of binding is generated, after which the display process will be repeated. Thus, a circular scan of the image.

 In FIG. 4 shows a specific example of the formation of an elementary image of information during operation of the proposed rotating information device.

 The light emitters 10 located on the holders of the bracket 6 for mounting the light emitters, when it rotates, describe the circles that are folded in the surface of rotation (in our example, the sphere and cylinder, Fig. 4). The surface of the sphere is divided into N sectors and M belts. The surface of the cylinder is divided into N sectors and K belts. When a single light emitter flashes in the same place in space, a narrow luminous stroke appears, which is the minimum element of the image.

 Creeping text and graphics are created using special software. The information prepared on a computer is entered into a memory chip (for example, a ROM with 27C512 ultraviolet erasure), which is installed in a detachable panel of the control unit.

 Possible circuit solutions in which the programming of the memory device is carried out without removing it from the product.

Claims (4)

 1. A rotating information device, comprising a housing, a rotating motor with a shaft, a rotating display unit, comprising light emitters, at least one light emitter mounting bracket and a light emitter control unit having separate control circuits for each light emitter, fixedly connected to inputs of respective light emitters, and a power supply fixed motionlessly in the housing and connected to the light emitting radiation control unit through movable electrical contacts, an arm The light emitting fixture mounting includes a base and at least two light emitter holders located on it, characterized in that the light emitter mounting bracket is mounted on a balancing holder mounted on the motor shaft and is made asymmetric with respect to the rotation axis so that the light emitter holders are different from the axis rotations and are the generators of at least two bodies of revolution of different shapes, defining the shape of the information surfaces.  2. The device according to claim 1, characterized in that the holder of the light emitters, more remote from the axis of rotation, is made in the form of a straight segment parallel to the axis of rotation and which forms a cylindrical information surface, and the holder of light emitters, less remote from the axis of rotation, is made in the form an arc - forming a spherical information surface, with a center located on the axis of rotation, and the middle of the mentioned segment and the center of the said arc lie in the same plane perpendicular to the axis of rotation.  3. The device according to claim 2, characterized in that the said light emitter holder, made in the form of a straight line segment and fixed at one end on the bracket base, with its free end pointing downward, the device further has a light emitter holder made in the form of a straight line segment directed upward parallel to the axis rotation, and which forms a complementary cylindrical information surface located on the base of the bracket from the side relative to the axis of rotation, opposite to the holder Tieliu light emitters in the form of an arc, at a distance from the axis of rotation of less than the radius of said arc.  4. The device according to any one of claims 1 to 3, characterized in that the light emitters are located on the outer and / or inner sides of the bracket holders.

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