RU222261U1 - Smartphone - Google Patents

Abstract

The utility model relates to digital technology, namely to mobile means of individual communication.

The smartphone contains a body 1 shaped like a rectangular parallelepiped, a display 2, a processor unit, RAM and built-in memory, a main 3 and auxiliary digital cameras, a set of sensors, and a battery.

The smartphone additionally contains a frame 4 located across the body of the smartphone, which has a box-shaped profile designed to cover the body and move along its length, and a threaded retainer 5 for positioning the frame on the smartphone, mounted in one of the shelves 6 of the frame 4, with the second shelf 7 the frame has a rectangular window 8, the height 9 and width 10 of which are, respectively, equal to the width and half the length of the display, into which an optical raster 11 is mounted, containing an array of flat-convex cylindrical lenses 12, and the axis of symmetry of the window 13 of the frame 4 and the axis of the cylindrical lenses 14 raster 11 are located parallel to the transverse axis of symmetry 15 of the smartphone display 2, while the frame is designed to provide optical contact of the optical raster 11 with the display 2, on which, using the processing unit, a parallax stereogram is generated from the left and right frames of the stereo pair obtained by camera 3 at attaching an optical stereo attachment 17 to its lens 16.

Description

The utility model relates to digital technology, namely to mobile means of individual communication.

A smartphone is known (Delyabr U. Smartfonics: scientific experiments with a smartphone: M.: DMK Press, 2021, pp. 15-18), containing a case in the shape of a rectangular parallelepiped, a display, a processor unit, RAM and built-in memory, main and auxiliary digital cameras, a set of sensors and a battery. A smartphone is a portable computer that combines the functions of a mobile phone and computing functions, has powerful hardware capabilities and an extensive operating system that provides extensive software, Internet access and multimedia functions. In addition, the smartphone includes main and auxiliary digital photo and video cameras.

The disadvantage of a smartphone is that cameras only provide regular photos and videos.

The closest in technical essence is a smartphone (catalog of photographic equipment of the company MYSKU.ru), containing a case in the shape of a rectangular parallelepiped, a display, a processor unit, RAM and built-in memory, main and auxiliary digital cameras, a set of sensors, and a battery. In this case, images of the left and right frames of the stereo pair, obtained using a camera when attaching an optical stereo attachment to its lens, are formed on the displays using the processing unit.

Examination of these frames allows, after preliminary training, to observe a stereo image of the subject. However, this procedure is very tedious and is carried out only if the user has sufficient eye convergence. The resulting stereo pairs can be recorded on a flash drive, and then the stereo image can be viewed on a TV screen that has the function of viewing stereo pairs.

The problem of the utility model is obtaining and observing a stereo image directly in the process of shooting an object.

The technical result is the creation of a smartphone that provides the ability to observe a stereo image of an object during its shooting.

The technical result is achieved in that a smartphone containing a body in the shape of a rectangular parallelepiped, a display, a processor unit, RAM and built-in memory, main and auxiliary digital cameras, a set of sensors, a battery, according to the utility model, additionally contains a frame located across the body of the smartphone, which has a box-shaped profile designed to cover the body and move along its length, and a threaded frame position lock on the smartphone, mounted in one of the frame shelves, while the second frame shelf has a rectangular window, the height and width of which are, respectively, equal to the width and half length of the display into which an optical raster is mounted, containing an array of flat-convex cylindrical lenses, wherein the symmetry axis of the frame window and the axis of the cylindrical lenses of the raster are located parallel to the transverse symmetry axis of the smartphone display, while the frame is configured to provide optical contact of the optical raster with the display, on in which, using the processing unit, a parallax stereogram is formed from the left and right frames of a stereo pair obtained by a camera when an optical stereo attachment is attached to its lens.

This design of the smartphone makes it possible, using the processor unit, to form a parallax-stereogram stereo pair using the left and right frames on the display, viewing which through a lens raster allows you to observe a stereoscopic image of the subject.

This technical solution differs in the combination of elements and their relative arrangement.

In fig. Figure 1 shows a side view of a smartphone.

In the diagram of Fig. Figure 2 shows a rear view of the smartphone.

In the diagram of Fig. Figure 3 shows a front view of the smartphone.

In the diagram of Fig. Figure 4 shows a cross-sectional image of the movable frame of a smartphone.

The smartphone contains a body 1 shaped like a rectangular parallelepiped, a display 2, a processor unit, RAM and built-in memory, a main 3 and auxiliary digital cameras, a set of sensors, and a battery. It additionally contains a frame 4 located across the body of the smartphone, which has a box-shaped profile designed to cover the body and move along its length, and a threaded retainer 5 for positioning the frame on the smartphone, mounted in one of the shelves 6 of the frame 4, with the second shelf 7 the frame has a rectangular window 8, the height 9 and width 10 of which are, respectively, equal to the width and half the length of the display, into which an optical raster 11 is mounted, containing an array of flat-convex cylindrical lenses 12, and the axis of symmetry of the window 13 of the frame 4 and the axis of the cylindrical lenses 14 raster 11 are located parallel to the transverse axis of symmetry 15 of the smartphone display 2, while the frame is designed to provide optical contact of the optical raster 11 with the display 2. An optical stereo attachment 17 is attached to the lens 16 of the camera 3, which is fixed to the smartphone body using a clothespin 18 In Fig. 1 the subject is designated by the number 19, and the user by the number 20.

The smartphone works as follows. The optical stereo attachment 17 is aimed at the shooting object 19 by the user 20 (Valius N.A. Stereoscopy. M: from the Academy of Sciences of the USSR, 1962, pp. 156-159). When a stereo attachment is attached to the smartphone lens on a photosensitive matrix, images are formed for the user's left and right eyes using the stereo attachment 17 and the lens 16 of the main camera of the smartphone. In the processing unit, parallax stereograms are formed from these digital images (Valius N.A. Stereoscopy. M.: USSR Academy of Sciences, 1962, pp. 173-176), consisting of alternating columns of digital images of the left and right frames stereo pairs. This parallax stereogram is displayed on the display and is placed under the lenses of the optical raster 11, mounted in the frame 4, which is placed on the smartphone body so that the columns of the parallax stereogram are located along the transverse axis of symmetry of the smartphone display. To view a stereoscopic image, the user 20 moves the frame 4 along the length of the body 1 until a stereo image of the shooting object 19 is observed through the optical lens raster 11. After this, using the latch 5, the frame is fixed to the body 1. The advantages of this technical solution are:

simplicity of design;

the ability to observe the stereo effect during photo or video shooting.

The proposed technical solution can be implemented on the basis of standard smartphones and fairly simple additional elements and programs.

The proposed smartphone can be widely used by users of mobile communications.

Claims (1)

A smartphone containing a body in the shape of a rectangular parallelepiped, a display, a processor unit, RAM and built-in memory, main and auxiliary digital cameras, a set of sensors, a battery, characterized in that it additionally contains a frame located across the body of the smartphone, which has a box-shaped profile, made with the ability to cover the body and move along its length, and a threaded frame position lock on the smartphone, mounted in one of the frame shelves, while the second frame shelf has a rectangular window, the height and width of which are, respectively, equal to the width and half the length of the display, in in which an optical raster is mounted, containing an array of flat-convex cylindrical lenses, wherein the symmetry axis of the frame window and the axis of the cylindrical lenses of the raster are located parallel to the transverse symmetry axis of the smartphone display, while the frame is configured to provide optical contact of the optical raster with the display on which, using the processor block, a parallax stereogram is formed from the left and right frames of a stereo pair obtained by a camera when an optical stereo attachment is attached to its lens.

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