RU132322U1 - MIRROR WITH BUILT-IN LIGHT (OPTIONS) - Google Patents

Abstract

1. A mirror with a built-in lamp, containing glass mounted on a plastic frame with an amalgam on most of its inner surface, a translucent section and an internal illumination element, characterized in that the mirror frame is equipped with an additional plastic strip located in the inner area of the frame next to the translucent section, and the element of internal illumination is located on the side surface of the plastic strip from the side of the translucent portion. 2. The mirror according to claim 1, characterized in that the frame is made of composite universal elements that provide vertical and horizontal arrangement of the mirror. A mirror with a built-in lamp, containing glass mounted on a plastic frame with an amalgam on most of its inner surface, a translucent section and an internal illumination element, characterized in that it is equipped with a translucent L-shaped overlay located in the region of the translucent section on the rear side of the mirror, The L-shaped cover plate is fixed on one side on a plastic frame, and the end face of a small shelf abuts against the end face of the mirror, and the element of internal illumination is located on the side outer surface the surface of the plastic frame on the side of the translucent portion. 4. The mirror according to claim 3, characterized in that the L-shaped pad is made of plastic. The mirror according to claim 4, characterized in that the L-shaped pad is made of plexiglass. The mirror according to claim 3, characterized in that the frame is made of composite universal elements that provide vertical and horizontal arrangement of the mirror.

Description

The utility model relates to the design of mirrors designed for the bathroom, bedroom, hallway and other rooms.

Known illuminated device, including light-emitting diodes, paired with a light-diffusing screen made of plastic (see patent for invention RU No. 2295667, CL. F21V 5/00, op. In 2005). This expensive device relates to lamps, lamps, lighting elements and is intended for lighting rooms.

A rectangular LED ceiling light is known, the screen of which is made of translucent material, along the perimeter of which LEDs are placed in the box section (see Utility Model Patent RU No. 104809, Cl. H05K 5/00, op. 2011). This technical solution is more universal than the previous one, but it does not solve the problem of directional lighting of small objects.

A well-known illuminated advertising panel made of translucent material with LEDs located around the perimeter of the acrylic panel (see patent DE No. 102005035524, CL. G09F 13/18, op. In 2007). The known device has a narrow purpose and is intended to highlight texts located on the front side of the acrylic panel.

It is known that a mirror with a built-in lamp is intended for a bathroom, including a light source located on the back of the mirror panel and part of the surface of the mirror panel, from which the mirror coating (transparent portion) has been removed and processed to create a matte surface, and light enters the room through this part of the surface of the mirror (see patent for utility model RU No. 59386, CL. A47K 1/02, op. in 2006). The known device is designed in such a way that allows you to illuminate the space in front of the mirror with a soft subdued light, and eliminates the splash of water on the elements of the lamp. The disadvantage of this design of the mirror is its significant thickness due to the rear location of the lamp and a small area of illumination limited by the transparent portion of the mirror.

The closest technical solution to the claimed utility model is a mirror with a built-in lamp containing glass with an amalgam fixed on the frame on most of its inner surface and elements of internal illumination, the amalgam-free area is located around the perimeter of the mirror with the formation of a translucent edging, and the mirror is equipped with a frame made of light-transmitting material fixed to its rear side along the perimeter and made with an internal cavity for accommodating backlight elements, etc. adjacent to a region free of amalgam, the width of the frame cavity light transmitting material is greater than the width of the mirror free from amalgam (see. the utility model patent RU №118849, Cl. A47G 1/02, op. in 2012 YG). The known technical solution is aimed at reducing the dimensions of the mirror and increasing the versatility of the lighting device. However, such a rather complicated design of the lighting device requires high costs for expensive materials and is technically difficult to manufacture.

This utility model is aimed at solving the technical problem of simplifying the design of the mirror and the lighting device while increasing the versatility of its manufacture.

The solution of the technical problem is achieved by the fact that in the mirror with the built-in lamp according to the first embodiment, it contains glass with an amalgam mounted on a plastic frame on most of its inner surface, a translucent section and an internal illumination element, the mirror frame is equipped with an additional plastic strip located in the inner zone frames next to the translucent section, and the element of internal illumination is located on the side surface of the plastic strip from the side of the translucent section. The frame is made of composite universal elements providing vertical and horizontal arrangement of the mirror.

And also the fact that the mirror with the built-in lamp according to the second embodiment, containing glass with an amalgam fixed on a plastic frame on most of its inner surface, a translucent section and an internal illumination element, is equipped with a translucent L-shaped overlay located in the area of the translucent section on the back side mirrors, while the L-shaped cover plate is fixed on one side on a plastic frame, and the end face of a small shelf abuts against the end face of the mirror, and the element of internal illumination is located on the side th outer surface of the plastic frame from the side of the translucent area. L-shaped pad made of plastic. L-shaped pad made of plexiglass. The frame is made of composite universal elements providing vertical and horizontal arrangement of the mirror.

The utility model is illustrated by drawings. Figure 1 shows a mirror (1 option), a rear view in isometry. Figure 2 is the same, rear view. Figure 3 is the same with the backlight turned off, front view in isometric view. Figure 4 is the same with the backlight on, front view in isometric view. Figure 5 - mirror (2 option), a rear view in isometry. Figure 6 is the same, rear view. Figure 7 is the same, bottom view. On Fig - the same with the backlight turned off, front view in isometric view. In Fig.9 - the same with the backlight on, front view in isometric view. Figure 10 - disassembled plastic frame, in isometry. Figure 11 is a plastic corner of the frame, in isometry. On Fig - frame Assembly with fasteners. In FIG. 13 - a plastic corner with a crutch in the working position, in isometry. On Fig - electrical schematic diagram.

A mirror with a built-in lamp includes a glass 2 placed on a plastic frame 1 with an amalgam located on the inner surface of the glass 2. The amalgam does not cover the entire surface of the glass 2. On the surface of the mirror there is a translucent portion 3 free of amalgam. The plastic frame 1 is adjacent to the rear side of the mirror and mounted on the composite adhesive so as not to cover the translucent portion 3. On the surface of the mirror, an additional translucent portion 4 can be made for the logo of the manufacturer. A voltage stabilizer 5 (power supply), a hollow plastic strip 6 (1 embodiment, see FIGS. 1 and 2) with a lighting element (internal illumination element), for example a halogen lamp, are attached to the plastic frame 1 in its inner zone from the rear side of the mirror 7. On the rear surface of the mirror can be installed touch switch 8 and anti-fog 9. Lamp 7 is located so as to illuminate the area near the translucent sections 3 and 4, but at the same time so that the light does not directly enter the eyes of a person. All wiring is located in the hollow frame 1 and the hollow strip 6, which excludes human contact with the wires when mounting and operating the mirror.

In the second embodiment, the mirror is equipped with a translucent L-shaped plate 10 located in the zone of the translucent section 11 on the rear side of the mirror either on one side of it (Figs. 8 and 9), or on both sides (not shown), if the mirror has another symmetrically located translucent section 11. The translucent section 11 may be a curved complex pattern and have on its surface an opaque zone 12, intended for the logo of the manufacturer. L-shaped pad 10 can be made of acrylic stone, but preferably made of sheet plastic, such as plexiglass. Plexiglas can be transparent, frosted, with a pattern, for example, under crushed ice, etc. On the lower side of the plastic frame 1, a switch 13 and a socket can be located 14. On the outer side of the plastic frame 1, under the L-shaped cover 10, there are lighting elements, for example, LEDs 15. To the plastic frame 1 in its inner area from the rear of the mirror the power supply unit 5 (voltage stabilizer) is attached. The mirror is equipped with anti-fogging 9. The L-shaped pad 10 is fixed on one side to the plastic frame 1, and the end face of the small shelf 16 abuts against the end face of the mirror.

The plastic frame 1 is made up of several elements: two vertical hollow strips and two horizontal hollow strips 17 and four corners 18. Each corner 18 has two parallelepiped-shaped end elements 19 with sealing sections 20 on its surface, due to which the corners 18 are tightly inserted into the plastic strips 17. Before assembling the frame 1, glue is applied to the end elements 19, and then they are held until dry. For reliability, the corners 18 are fixed in the frame 1 by means of, for example, screws 21. The corners 18 have a through hole 22 of a complex configuration (11 and 13). From the side facing the mirror, the corner 18 has a cross-shaped recess 23, and from the reverse side a through corner hole 24 is made before connecting with two slots of the cross-shaped recess 23. Thus, the corner hole 24 is designed to pass the crutch 25 of the wall mount 26 to the stop in the mirror and the rest of the recess 23 is designed to fix the crutch 25 in the working position.

The electrical circuit diagram (Fig. 14) shows a switch 13 (touch or contact type) with a control unit 27 connected to a lighting element, for example, a halogen lamp 7, through a voltage stabilizer 5. Anti-fog 9 is also associated with the control unit 27. Power is supplied through plug 28.

A backlit mirror is used as follows.

In the first embodiment of the mirror, when the halogen lamp 7 is turned on, the light reflected from the plastic frame 1 and the strip 6 enters the translucent section 3 and uniformly illuminates the space in front of the mirror with muffled light. Because the mirror adjoins the wall with the rear surface of the frame 1, and all the power elements are in the inner cavity, limited by the frame 1, and also by the strip 6, moisture vapor and water splashes in this cavity on the lamp 7 and the power elements are excluded, while the mirror itself has a very compact dimensions in thickness with high strength and lightweight frame design 1. This effect is achieved due to the fact that the prefabricated frame design of universal plastic elements ensures high accuracy of their joining and connection between themselves th. The obtained stiffness of the connection of all elements of a very light plastic frame 1 is sufficient to maintain the mirror in limbo. Due to the high bonding properties of modern adhesives for plastics, an impact-resistant one-piece frame design 1 and mirrors are obtained. In this case, the mirror practically does not protrude from the wall, because has a small thickness. And the universality of the elements of the frame 1: hollow strips 17 and corners 18 allows them to be used in horizontal and vertical arrangement of the mirror. The corner hole 24 of the corner 18, intended for the passage of the crutch 25 of the fastening 26, allows you to use it in a similar way, turning 90 degrees.

In the second embodiment of the mirror, the light from the LEDs 15 is also limited by the translucent section 11, the frame 1 and the L-shaped cover 10. Moreover, such a design, as in the first embodiment, with all its simplicity, provides high operational properties of the mirror and lighting elements. The LEDs 15 are located on the side surface of the frame 1, therefore, direct light is excluded from the eyes of a person. Using the universal design of the frame 1 can significantly simplify the manufacture of mirrors of various designs, provides their wall arrangement while reducing the occupied volume.

Thus, the technical result achieved using the claimed utility model is to simplify the design of the mirror and the lighting device while increasing the versatility of its manufacture and reducing its weight and dimensions.

Claims (6)

1. A mirror with a built-in lamp, containing glass mounted on a plastic frame with an amalgam on most of its inner surface, a translucent section and an internal illumination element, characterized in that the mirror frame is equipped with an additional plastic strip located in the inner area of the frame next to the translucent section, and the element of internal illumination is located on the side surface of the plastic strip from the side of the translucent portion. 2. The mirror according to claim 1, characterized in that the frame is made of composite universal elements that provide vertical and horizontal arrangement of the mirror. 3. A mirror with a built-in lamp, containing glass mounted on a plastic frame with an amalgam on most of its inner surface, a translucent section and an internal illumination element, characterized in that it is equipped with a translucent L-shaped overlay located in the region of the translucent section on the rear side of the mirror, in this case, the L-shaped cover plate is fixed on one side to a plastic frame, and the end face of a small shelf abuts against the end face of the mirror, and the element of internal illumination is located on the side external erhnosti plastic frame by the translucent portion. 4. The mirror according to claim 3, characterized in that the L-shaped pad is made of plastic. 5. The mirror according to claim 4, characterized in that the L-shaped pad is made of plexiglass. 6. The mirror according to claim 3, characterized in that the frame is made of composite universal elements that provide vertical and horizontal arrangement of the mirror.

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