RU200568U1 - LASER LIGHT - Google Patents

Abstract

This device refers to a light-emitting device and can be used as a table, ceiling or wall lamp. The technical result of the utility model is to increase the efficiency of using the luminous flux of the laser beam, as well as the ability for the user to build the desired figures from the reflected lines of the laser beam. The specified technical result is achieved due to the fact that the claimed lamp has a support base on which the laser is fixed, mirrors, characterized in that the laser is fixed with the ability to rotate and tilt in different directions, a support is installed on the support base to hold mirrors, each of which is held on a support on flexible holder and is made with the possibility of turning and tilting in different directions.

Description

This device belongs to a light emitting device and can be used as a table, ceiling or wall lamp.

A LIGHT-EMITTING DEVICE AND A METHOD FOR LIGHT EMITTING (RU2502918, published: 12/27/2013) is known from the prior art, comprising a first light source, a second light source, a partially transparent mirror, and a collimating means configured to at least partially collimate the first and second light light sources such that, during operation, substantially all, at least partially, of the collimated light of the first and second light sources falls on the partially transparent mirror. The partially transparent mirror is arranged to receive, during operation, substantially all, at least partially, collimated light emitted by the first and second light sources and reflecting a portion of the light emitted by the first light source and transmitting a portion of the light emitted by the second light source, and on the contrary, so that the light from the first light source is completely superimposed on the light from the second light source after reflection / transmission in the partially transparent mirror. The collimating means comprises mirrored portions corresponding to the first light source and the second light source, respectively. The first light source and the second light source are located at opposite outer ends of the collimating means. The device may use lasers instead of LEDs in some embodiments. The solution was chosen as a prototype.

The technical problem of the prototype is the use of only one semitransparent and one opaque mirror for reflecting the light flux, and if lasers are used as emitters, the efficiency of using the beam reflected by them is extremely low. In addition, the user sees a limited luminous flux behind the dome of a semitransparent mirror, part of the collimated light of which will be lost. Also, the prototype luminaire has a light-emitting flux always of the same shape.

The task of the utility model is to eliminate the indicated technical problems.

The technical result of the utility model is to increase the efficiency of using the luminous flux of the laser beam, as well as the ability for the user to build the desired figures from the reflected lines of the laser beam.

The specified technical result is achieved due to the fact that the claimed lamp has a support base on which the laser is fixed, mirrors, characterized in that the laser is fixed with the ability to rotate and tilt in different directions, a support is installed on the support base for holding mirrors, each of which held on a support on a flexible holder and made with the possibility of turning and tilting in different directions.

It is possible that a light absorber is installed on the top of the support to hold the mirrors.

It is permissible that a prismatic reflector is installed at the top of the support for holding the mirrors, which can be rotated and tilted in different directions.

It is possible that an additional laser is installed in the support base, fixed with the ability to rotate and tilt in different directions and emitting a luminous flux of a different spectrum than the main laser.

Brief Description of Drawings

Figure 1 shows a luminaire device with a light absorber at the top.

Figure 2 shows a luminaire device with a prismatic reflector of the luminous flux at the top.

Figure 3 shows a luminaire arrangement with a specular reflector of the luminous flux at the top.

Figure 4 shows a luminaire device with two opposite luminous fluxes.

In the drawings: 1 - support base, 2 - rotating arm of the laser pointer, 3 - laser, 4 - support for holding mirrors, 5 - flexible holder, 6 - mirror, 7 - laser beam, 8 - light absorber, 9 - prism, 10 - tubular absorber of light flux, 11 - flexible holder on a swivel arm.

Implementation of the utility model

The lamp (see Fig. 1) has a support base 1, on which a laser 3, a mirror 6 is fixed.

What is new is that the laser 3, which can be used, for example, a laser pointer, is fixed so that it can be rotated and tilted in different directions. This possibility of turning and tilting in different directions can be realized using, for example, a flexible holder 11 attached to a pivoting arm 2 (see Fig. 2) mounted on a support base 1.

A support 4 is also installed on the support base 1 to hold the mirrors 6, each of which is held on the support on a flexible holder 5 and is capable of turning and tilting in different directions.

Flexible holders 5 and 11 can be realized, for example, in the form of flexible wire.

The lamp is used in the following way.

When the laser 3 is turned on, a laser beam 7 comes out of it. The user directs the laser 3 in the direction of one of the mirrors 6, and this mirror turns so that the laser beam 7 is reflected from it in the direction of the other mirror 6, which is turned again in the same way. And so, the user turns and changes positions, bending the holders 5, in relation to all mirrors 6 until the end of the laser beam 7 abuts, for example, the absorber of the light flux 8, which can be installed on the top of the support 4 (see Fig. 1). As an absorber of the luminous flux, for example, a black disc (see Fig. 1) or a tubular absorber 10 (see Fig. 2) can be used.

Alternatively, a mirror 6 can be installed at the top of the support 4, and then the luminous flux of the laser beam 7 can be sent in the opposite direction - down, looping on the infinite re-reflection of the laser beam 7 from the mirrors (see Fig. 3) or closed at the output of another additional laser 3 (see Fig. 4), which is also fixed with the possibility of turning and tilting in different directions and has an emitting luminous flux of a different spectrum than the main laser (for example, use green and red rays of the laser spectrum). In this case, the user can combine two opposite luminous fluxes of different spectrum, which will increase the aesthetic qualities of the luminaire.

Alternatively (see Fig. 2), it is also permissible that a prismatic reflector 9 can be installed at the top of the support 4 for holding the mirrors 6 so that it can be rotated and tilted in different directions. With its help, you can turn and send in a parallel direction the laser beam 7, which, along the same path of the optical scheme of the mirrors 6, will return to the point that is located next to the laser 3. In this place, you can install a tubular absorber 10 of the light flux or an additional laser 3. If the laser 3 is not included, then it itself can be used as a tubular absorber 10 of the light flux. And if you turn on the additional laser 3, then it will create a counter luminous flux by analogy with Fig. 4, only not one beam will pass through the mirrors, but two, which will enhance the aesthetic effect of the lamp.

Thus, thanks to a plurality of mirrors 6, which are fixed with the possibility of turning and tilting in different directions using a flexible holder 5, an increase in the efficiency of using the luminous flux of a laser beam is provided, which emits light along the aligned optical circuit until the power of the luminous flux is completely exhausted, allows you to use all the light energy of the laser beam without loss.

In addition, due to the plurality of mirrors 6, which are fixed with the possibility of pivoting and tilting in different directions using the flexible holder 5, the user is provided with the opportunity to arrange the desired figures from the reflected lines of the laser beam as shown in Fig. 1 - Fig. 4. Moreover, the executions in Fig. 1 - Fig. 4 are not limited only to these options and the optical circuits can be arranged in the most unusual way, including in the form of letters, some figures or in the form of patterns.

The support base 1 of the luminaire can be mounted on a wall, ceiling or tabletop. This allows the luminaire to be used as a tabletop, ceiling or wall.

The luminaire can be powered using batteries or rechargeable batteries installed in the laser (if a laser pointer is used), or from an electrical outlet. In the latter case, a power supply unit in the form of a transformer can be installed inside the housing of the support base 1 for the desired value of the output voltage to power the laser or several lasers. The luminaire switch can be installed both on the laser itself (if a laser pointer is used) or on the support base 1 of the luminaire (if the power is supplied from an electrical outlet through the power supply inside the base case 1).

Claims (4)

1. A lamp having a support base on which a laser is fixed, mirrors, characterized in that the laser is fixed with the ability to rotate and tilt in different directions, a support is installed on the support base for holding mirrors, each of which is held on a support on a flexible holder and is made with the ability to turn and tilt in different directions. 2. A lamp according to claim 1, characterized in that a light flux absorber is installed at the top of the support for holding the mirrors. 3. The lamp according to claim 1, characterized in that a prismatic reflector is installed at the top of the support for holding the mirrors, which can be rotated and tilted in different directions. 4. The lamp according to claim 1, characterized in that an additional laser is installed in the support base, fixed with the possibility of turning and tilting in different directions and emitting a luminous flux of a different spectrum than the main laser.

Images