RU172702U1 - INTERACTIVE MIRROR - Google Patents

Abstract

The invention relates to the technology of interactive customer service intended for the selection of clothes and accessories, in particular to the design of mirrors with touch controls. The objective of the invention is to reduce the cost of manufacturing and using an interactive mirror. The technical result of the invention is to reduce energy consumption without loss of consumer properties due to the use of touch-technology and different orientations of the mirror and the information display. The technical result is a useful fashion Whether there is a reduction in energy consumption without loss of consumer properties through the use of touch-technology and the different orientation of the mirror and the information display.

Description

The utility model relates to interactive customer service technology designed to select clothing and accessories, in particular to the design of mirrors with touch controls.

The concept of "interactive" implies the direct interaction of the device with the buyer in the process of selecting goods and the quick response of the device to customer requests.

Currently, designs of interactive mirrors are gaining ground, which, due to the convenience and ease of use and management, allow to optimize the shopping process and expand the functionality of commercial equipment in order to increase sales.

In the general case, the design of interactive mirrors is a mirror surface that is combined with a touch monitor (for example, RF patent No. 151271, publication date 03/27/2015). Management occurs by pressing virtual interactive buttons on a mirror surface.

Such interactive control can be implemented using various technologies: resistive, capacitive, projective-capacitive, optical (including using infrared sensors), ultrasound, technologies based on the properties of acoustic waves, etc. The choice of a particular technology depends on the complexity of its installation on the mirror and the installation of the mirror in the fitting room, the requirements for image quality, purpose and size of the mirror, and overall energy consumption. All these parameters determine the cost of interactive mirrors, which plays a key role for their use.

The essence of each of these technologies is to determine the coordinates of the point where they touched the surface of the device. To work with touch screens, you need a unique interface synchronized with them, having a specific set of taps that it can recognize to correctly determine the coordinates of pressing the surface. Special signal processing software is built into modern operating systems such as Windows 10, Mac OS X, Android, IOS, etc. (Multitouch technology - what is it http://www.techno-guide.ru/informatsionnye-tekhnologii/displei/tekhnologiya-multitouch-chto-eto-takoe.html).

However, the well-known interfaces and software are designed for devices that use all the available surface during control (the screen of a mobile phone, tablet, touch control panel), while the dimensions of the surface of the device and the monitor that defines the so-called signal reading zone are the same.

Known interactive mirrors also use the above interfaces and software, designed to accurately determine the coordinates of the pressure points only if the dimensions of the mirror and the monitor (information display) are the same.

Thus, mirrors and monitors (information displays) are installed in the fitting rooms, the dimensions of which are comparable to the full growth of an adult. As you know, monitors of this size have a large power consumption. For example, in such cases, Samsung UE55J6500 AU monitors with a diagonal of 55 '' (140 cm) and a power consumption of 163 W are used; Samsung UE55JU7000 monitors with a diagonal of 55 `` (140 cm) and a power consumption of 222 watts.

However, in order to implement the control functions, a monitor (information display) is really necessary, the size of which is much smaller than the size of the mirror itself. The user presses the buttons of the monitor (information display) while in the vertical position of the body, which is natural when fitting, while the upper and lower parts of the mirror remain unused, but consume electricity. Therefore, the use of solutions, according to which the dimensions of the mirror and the monitor (information display) are the same, is energy-consuming, expensive and irrational.

The prior art design of the mirror (Zytrinic, Kite GB http://zytronic.co.uk/case-studies/detail/kite-gb/), which has a vertically oriented mirror with an information display that uses capacitive technology to control.

In this case, the information touch panel is made on a transparent substrate, the external surface is covered with a conductive layer, and electrodes connected to the controller are fixed in the corners. In the process, he delivers pulses of weak alternating current to the electrodes. When you touch the surface of the touch screen with your finger, a current leak occurs, which is directly proportional to the distance from the point of pressing to the electrode. By comparing the magnitude of the leakage currents through each of the four electrodes, the controller calculates the coordinates of the pressure point through the well-known electronic interface and software. However, the normal operation of the information display on a mirror surface may be impaired if it is contaminated with substances that conduct electric current. In addition, in this case, as described above, the size of the monitor coincides with the size of the mirror, which leads to additional energy costs and increases the cost of manufacturing and using the solution.

The design of an interactive mirror is known (Chinese patent No. 203311392, November 27, 2013), which has a display, a two-sided mirror, a touch panel with an infrared frame around the perimeter of the mirror, a camera, a voice device, a laser AC generator at the top of the two-sided mirror, a computer with USB interface. In a preferred embodiment, the mirror is a display. This design of the mirror is taken as the closest analogue to the claimed solution.

The specified mirror uses infrared technology, the essence of which is that the mirror has an infrared frame (IR frame): on both sides of the mirror there are lines of IR LEDs with focusing lenses, and on opposite sides of the line of photodiodes. When LEDs are turned on, an invisible grid formed by infrared rays is formed above the mirror surface. When an object approaches the surface of the mirror, it overlaps the intersecting infrared rays at a given point. The absence of the beam is detected by the elements of the optocouplers, by changing the state of which the computer / controller determines the coordinates of the touch point using the well-known electronic interface and software.

The advantage of using IR technology is the absence of any additional layers and substrates that occur with resistive or capacitive technology, that is, the installation of such a sensor does not affect the brightness, contrast, clarity and color accuracy (Sergey Asmakov. Variety of touch displays http: / /compress.ru/article.aspx?id=21556). Also, IR technology is the simplest and cheapest known technology for interactive control (Reviews. Touchscreen up and down / Touch technology in mobile devices http://www.mobimag.ru/Articles/4282/Tachskrin_vdol_i_poperek.htm). In addition, the IR frame around the perimeter of the mirror allows you to save the consumer properties of an interactive mirror: to obtain images on a mirror surface without crossing it with frames, lines, the presence of areas of different contrast, brightness and sharpness, etc.

However, in this case, the size of the mirror also coincides with the size of the display (positions 1, 2 3 in FIG. 2 to Chinese Patent No. 203311392), which leads to increased energy costs and high cost of using the solution.

The objective of the utility model is to reduce the cost of using an interactive mirror.

The technical result of the utility model is to reduce energy consumption without loss of consumer properties through the use of infrared technology for interactive control and a smaller information display than a mirror.

The technical result is achieved by using an interactive mirror containing a housing, the front wall of which is a mirror with an infrared frame around its perimeter, having an information display with control functions, the size of which is smaller than the size of a mirror with an infrared frame, while the infrared frame and information display are configured to connect to a single board computer.

The presence of an infrared frame around the perimeter of the mirror, as well as an information display with control functions, the size of which is smaller than the size of the mirror itself, allows you to organize the power supply of only that limited working area on the surface of the mirror, which is necessary for control, which reduces energy consumption. Connecting an infrared frame and an information display to a single-board computer is necessary to synchronize the pressing area of the IR frame and the reading zone in order to determine the coordinates of the pressing point, as with the closest analogue and all known solutions. A specially developed software solution allows you to synchronize the area of pressing the infrared frame and the size of the reading zone - information display.

In this case, the dimensions of the IR frame, as in the case of the considered analogues, coincide with the dimensions of the mirror, which allows you to save the main function of the mirror without loss of consumer properties. Also, the presence of an infrared frame around the perimeter of the mirror allows you to reduce the cost of the structure and use touch-technology to control through the information display, convenient for users.

In FIG. 1 shows the design of an interactive mirror, FIG. 2 is an assembled view of an interactive mirror.

The interactive mirror contains a housing (not shown), the front wall of which is a vertically oriented mirror 1 with an infrared frame 2 around its perimeter, having an oleophobic coating 3 on the outside of the mirror 1 (user side), a white opaque substrate 4 on the inside of the mirror 1. Between the vertically oriented mirror 1 and the rear wall of the housing 5 are placed horizontally oriented information display 6 with control functions, as well as a computer (single board) or computer board 7 with Wi-Fi antenna 8.

As a mirror 1, a Gesell mirror can be used, which, when using a white opaque substrate 4, allows for a brighter and better reflection.

The oleophobic coating 3 allows to reduce the degree of contamination of the interactive mirror due to the regular touch of users and thereby improve the quality of the mirror surface and make the operation of the mirror more convenient.

An LED strip 9 and a transformer 10 for it, connected to a computer or computer board 7, can also be installed around the perimeter of mirror 1. An LED strip 9 is installed around the perimeter of mirror 1 from the inside, and allows the buyer to adjust the light and intensity.

Between the mirror 1 and the rear wall of the housing 5 of the mirror 1, a video camera 11, an RFID scanner 12 that can be connected to a computer or computer board 7 can also be installed.

Also, the side part of the mirror 1 can be equipped with a barcode scanner 13 connected to a computer or computer board 7. At the bottom of the mirror 1, an infrared motion sensor 14 can be installed, connected to a computer or computer board 7.

A computer or computer board 7, for example, ODroid-C2, has a 15 flash drive with an installed operating system, for example, Ubuntu Linux.

As an information display 6 with control functions, the Philips 223V5LSB full-color Full HD monitor, which has a diagonal of 21.5 '' and low power consumption of 15-20 W, can be used.

If a buyer with goods enters the fitting room with an installed interactive mirror, the infrared motion sensor 14 detects its presence and starts the operation of the computer or computer board 7 and other units that are associated with it. You can identify the goods by automatically reading the barcode with an RFID scanner 12, if the goods in the store are equipped with RFID tags, or by attaching the goods with a barcode to the barcode scanner 13. The characteristics of the goods are read and transferred to a computer or computer board 7, which accesses the picking database. Images of selected buyers of goods appear on the information display 6, by which when you press the control buttons (for the implementation of the control functions), you can perform all the necessary procedures for selecting the size, color, additional accessories, contact the store staff. Customer requests via Wi-Fi antenna 8 can be transferred to computers and gadgets of maintenance and management personnel to meet. Also, the information obtained can be used for marketing analysis in order to increase sales.

This solution allows you to use one-finger control by pressing in the area of the information display 6, while the mirror 1 and the information display 6 look as a whole with bright and clear images and text appearing through the mirror without lines, without frames, transition zones with different contrast, etc.

Due to the use of an infrared frame 2 along the perimeter of mirror 1 and an information display 6, the size of which is smaller than the size of mirror 1, it is possible to combine mirror 1 with touch technology in one housing and reduce the energy consumption of the entire structure to 30-35 W without compromising consumer properties .

All of these additional devices can be placed inside the mirror housing, between its front and rear walls, which eliminates the need to connect external equipment and clutter with fitting rooms with wires, provides ease of installation and operation in fitting rooms of any size, and also allows you to get a solution containing all the components for forming the system recommendations for the buyer.

Claims (4)

1. An interactive mirror, characterized in that it contains a housing, the front wall of which is a mirror with an infrared frame around its perimeter, having an information display with control functions, the size of which is smaller than the size of a mirror with an infrared frame, while the infrared frame and the information display are configured to connections to a single board computer. 2. An interactive mirror according to claim 1, characterized in that a Gesell mirror is used as a mirror. 3. The interactive mirror according to claim 1, characterized in that the mirror has an oleophobic coating on its outer side. 4. The interactive mirror according to claim 1, characterized in that the mirror has a white opaque substrate on its inner side.

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