RU214531U1 - DEMO DEVICE - Google Patents

Abstract

The utility model relates to means of displaying advertising or other visual information. The demonstration device contains a housing, inside which a device for forming a three-dimensional image is installed, made in the form of two holographic fans. At the same time, the body is made in the form of a frame of a three-dimensional spatial form, assembled from ribs forming the geodesic structure of the polyhedron. EFFECT: ensuring safe use of the three-dimensional imaging device while maintaining the three-dimensional effect of the transmitted image. 6 w.p. f-ly, 2 ill.

Description

Field of technology to which the utility model belongs

The utility model relates to means of displaying advertising or other visual information, namely to demonstration devices for playing 3D animation with a holographic effect, and can be used as a means for multimedia visual support of presentations and various types of public events indoors and outdoors, holding advertising campaigns, including at points of sale, exhibitions and fairs.

State of the art

The prior art advertising design [patent for utility model №RU 200056, IPC G09F 19/02, publ. 10/05/2020], containing a spherical frame for installing various advertising media, for example, banners, liquid crystal screens. The frame is made in the form of a dodecahedron and mounted on a support post in bearing assemblies with the possibility of rotation around the axis of the support post. An increase in the information content of the advertising structure is provided by increasing the usable area, which contributes to a greater overview.

The disadvantage of the known design is the installation of advertising media on the flat faces of the dodecahedron, causing the demonstration of only planar images without the ability to reproduce 3D graphics.

A demonstration device is known from the prior art, containing a holographic fan with LED sensors on the blades, which, when turned on and spinning up, create a static or dynamic image, as well as an image or animation with a 3D effect. For safety, the fan blades are placed in a transparent plastic housing. The case of the holographic fan has a connector for a charger, a slot for a memory card, and it is also equipped with a battery that can keep the fan in operation for several hours [utility model patent No. CN 208477890, IPC G09G 3/00, publ. 02/05/2019]. It is also known from the prior art to place a holographic fan in a transparent acrylic box https://hologramfan.ru/accessories.

The transparent plastic housing ensures the safety of both the holographic fan itself and the audience. At the same time, a transparent plastic case has an extremely negative effect on the perception of the volume of the hologram created by the projector, since, firstly, all glare and reflections from light sources in the room, such as lamps, monitors and other lighting devices, are visible on such a case; and secondly, the transparent case distorts the image created by the holographic fan and makes it less bright.

The closest in technical essence to the utility model is a device for forming a quasi-three-dimensional image [patent for utility model №RU 202365, IPC G02B 30/00, publ. February 20, 2015], which includes a 3D holographic fan located on the back wall of a transparent case, made with blackout in the upper and lower parts. Moreover, on the back wall, where the 3D fan is located, there is a blackout area extending from the lower edge of the rear wall to the top, while the blackout area is smaller in width than the rear wall.

Placement of the housing wall against a plain dark background increases the brightness and contrast of the image, while glare is excluded, the power wires of the holographic projector and the base of the device on which the blades are mounted are not visible. However, the use of a housing with a rear wall having blackout areas impairs the perception of the three-dimensionality of the hologram created by the holographic fan. In addition, the safe use of the device is not ensured due to the lack of a fence between the viewer and the holographic fan, which protects against accidental penetration.

Disclosure of the essence of the utility model

When creating a utility model, the task of increasing the efficiency of perception and attractiveness of the transmitted three-dimensional image was solved in order to increase the interest of the audience.

EFFECT: ensuring safe use of the three-dimensional imaging device while maintaining the three-dimensional effect of the transmitted image.

The specified technical result is achieved by the fact that the demonstration device contains a housing inside which a three-dimensional imaging device is installed, made in the form of two holographic fans containing two or more blades, on which LED elements are placed, while, according to the utility model, the housing is made in the form frame of a three-dimensional spatial form, assembled from edges that form the geodesic structure of a polyhedron.

In this case, according to the utility model, the device for forming a three-dimensional image is installed on the edge of the frame or on the crosshairs of two mounting rods located perpendicular to each other, fixed inside the frame.

At the same time, according to the utility model, at the ends of the ribs there are seats for fastening to each other by means of fasteners to form the top of the frame.

In this case, according to the utility model, the ribs of the frame are interconnected by means of a connector.

At the same time, according to the utility model, the frame ribs are made of metal, wood or polymeric material.

At the same time, according to the utility model, the frame ribs contain profile elements to increase the rigidity of the structure.

Volumetric holographic advertising images reproduced with a holographic fan captivate the attention of viewers. 3D images reproduced by a holographic fan make an unforgettable impression on people, causing them surprise and delight. Due to the specifics of human vision, discrete and very fast flashes of LEDs are “smoothed out” into a single holistic 3D image. The latest technological developments make this image so deep, vivid and realistic that many viewers are tempted to touch it.

The proposed device provides the possibility of installing two holographic fans in the inner region of the frame, at each vertex of which ribs of different lengths converge, forming a polyhedron as a whole, close in shape to a segment of a sphere. The frame formed in this way is essentially a protective mesh shell that protects each holographic fan from damage. On the other hand, the frame protects the working area of the movement of the blades of each holographic fan from accidental penetration of the fingers of curious viewers, which greatly increases the safety of its operation in crowded conditions. The geodesic structure of the frame makes it lightweight, thus allowing it to be hung, for example, on the ceiling of a room.

At the same time, the placement of holographic fans in the inner area of the frame ensures that there are no walls or objects behind them and thereby excludes the merging of the reproduced image with the background, which certainly increases the efficiency of perception and the visual volume of the transmitted image, glare and distortion are excluded. In this case, we really achieve the effect of a three-dimensional image floating in the air. To enhance the effect, the installation site should have low lighting, in which case the 3D image will look brighter, clearer and more saturated.

Brief description of the drawings

The utility model is illustrated by graphic materials of a specific example of its implementation of the claimed demonstration device, where in Fig. 1 is a front view of the device and FIG. 2 is its isometric view.

Implementation of the utility model

The demonstration device contains a body (Fig. 1 and 2), made in the form of a frame 1 of a three-dimensional spatial form, assembled from ribs 2, forming the geodesic structure of a polyhedron (for example, a cylinder, a cone, a cube, a pyramid, a tetrahedron, an octahedron, a hexahedron, an icosahedron, a dodecahedron and other spatial form that does not affect the essence of the technical solution).

An integral element in the frame 1 is a rib 2 made of any solid material (for example, polymer or metal). For example, the ribs 2 can be made of metal profiles, wooden bars or plastic tubes.

Each rib 2 is attached at both ends to the vertices 3 of the frame 1, for which purpose seats for their fastening are made at the ends of the ribs 2. Ribs 2 can be fixed to each other, for example, fasteners (brackets, clamps, bolts, wire, rope, screws), or using glue or welding. Also, the ribs 2 can be connected to each other using a connector, which can be made in the form of several strips of a perforated metal tape connected in the center, or in the form of seats (petals, tubes, etc., etc.) welded to a metal sleeve. ) for attaching the ribs 2. Another embodiment of the utility model, in which the connector can be made in the form of a flat round plate with seats along the contour for attaching the ribs 2, while the ribs 2 in this case are made flattened at the ends. The flattened ends of the ribs 2 of the frame 1 with holes for fastening are bent by 3-7 degrees for a tight connection with a flat connector.

In the inner region 4 of the frame 1, a device for forming a three-dimensional image is installed, made in the form of two holographic fans 5, containing two or more blades 6, on which LED elements are placed. The number of blades 6 of the holographic fans 5 varies depending on the desired configuration. Holographic fans 5 are placed inside the frame 1 in such a way that its blades 6 do not touch the ribs 2 of the frame 1 during rotation and can rotate freely. In other words, the region 7 of rotation of the blades 6 of the holographic fans 5 fits into the inner region 4 of the frame 1.

The volumetric imaging device is controlled by a computing module, which can also be implemented using a CPU (Central Processing Unit), SoC (System on a chip) or other technologies that provide the required functionality in terms of computing processing. Each holographic fan 5 is driven by an electric motor. The electric motor and the computing module are mounted in a puck-shaped casing (not shown).

The latch of each holographic fan 5 can be made in the form of a plastic profile, bent in the form of a semicircle, with the possibility of installing a protective washer-shaped casing of the holographic fan 5 (not shown in the drawings). On the end side of the outer surface of the latch, slots are made for fastening the holographic fan 5 to the frame 1.

In the presented exemplary embodiment of the utility model, two holographic fans 5 are installed at the intersection of two mounting rods 8 perpendicular to each other, fixed on the ribs 2 and vertices 3 of the frame 1. In this case, the blades of the holographic fans are located in opposite directions, and the supply wire of each holographic fan 5 is fixed along or inside the mounting rods 8 and is led out of the inner region 4 of the frame 1 along them.

In some embodiments of the demonstration device, two holographic fans 5 can be mounted on the ribs 2 of the frame 1 in various spatial variations (opposite, obliquely, at an angle, or in any other way).

The demonstration device can be suspended from the ceiling or fixed to the wall using a bracket (pipe, angle, etc.) made of durable material (metal, plastic, wood, etc., etc.). In some embodiments, the display device may be hung inside an arch that rests on the floor, or mounted on a flat, stable platform that can be placed on the floor, display case, or table. In some embodiments, the ribs 2 contain profile elements to increase the rigidity of the structure.

The principle of operation of the claimed utility model is as follows.

Each holographic fan 5 is installed in the inner region 4 of the frame 1 by fixing it on the ribs 2 of the frame or mounting rods 8.

The computing module of each holographic fan 5 processes and receives data from an external device (for example, a computer, smartphone, tablet, etc.) that transmits data (using wired and wireless data transmission technologies) to be displayed by the holographic fan 5 by rotation of its blades 6.

Volumetric images reproduced during the rotation of the blades 6 of the two holographic fans 5 are displayed in the inner region 4 of the frame 1.

Thanks to the use of the frame 1 to accommodate two holographic fans 5, the influence of the background on the perception of the three-dimensional image is excluded. It gives the impression of a three-dimensional image floating in the air, attracting the attention of people passing by.

This ensures the safe operation of holographic fans by visually marking the boundaries of the internal working space of each holographic fan using the frame, which reduces the likelihood of accidental penetration into the inner area 4. Each holographic fan 5 is protected from mechanical damage, reducing the likelihood of injury to curious viewers.

Thus, by using the demonstration device, the safety of its use is ensured. At the same time, the volume of the transmitted image is preserved, which attracts the attention of the viewer. The effect of attracting attention (the “wow” effect) increases many times over. The volumetric image is constantly changing in real time and depending on the theme of a particular place and a particular situation.

Claims (7)

1. Demonstration device containing a housing, inside which is installed a device for forming a three-dimensional image, made in the form of two holographic fans containing blades on which LED elements are placed, characterized in that the housing is made in the form of a frame of a three-dimensional spatial form, assembled from ribs forming geodesic structure of the polyhedron. 2. The demonstration device according to claim 1, characterized in that the device for forming a three-dimensional image is installed on the edge of the frame. 3. The demonstration device according to claim 1, characterized in that the three-dimensional imaging device is installed on the crosshairs of two positioning rods perpendicular to each other, fixed inside the frame. 4. The demonstration device according to claim 1, characterized in that at the ends of the ribs there are seats for fastening to each other by means of fasteners to form the top of the frame. 5. The demonstration device according to claim 5, characterized in that the ribs of the frame are interconnected by means of a connector. 6. Demonstration device according to claim 1, characterized in that the ribs of the frame are made of metal, wood or polymer material. 7. Demonstration device according to claim 1, characterized in that the frame ribs contain profile elements to increase the rigidity of the structure.

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