CN104597606A - Visual virtual window - Google Patents

Abstract

The invention discloses a visual virtual window. The visual virtual window comprises a condensing mirror, a reflector and an astigmatoscope, wherein the condensing mirror is a concave mirror; the reflector and the astigmatoscope are convex mirrors; the reflector is positioned at the position of center of circle of the condensing mirror; the condensing mirror is provided with a light hole; the reflector and the astigmatoscope are opposite to the light hole, the reflector and the astigmatoscope are positioned on the two sides of the condensing mirror. The visual virtual window has the superior effects that natural light is condensed by using the condensing mirror and is reflected to the reflector by the condensing mirror and finally the natural light reflected by the condensing mirror is projected to an indoor wall to form a virtual window light surface similar to a window by the reflector. According to the visual virtual window, the virtual window is additionally arranged on the wall by using the optical element; the visual virtual window has good concealment and safety, the indoor brightness is improved, a lamp is not required to be turned on in daytime, and the cost is low while the electric energy is saved.

Description

The virtual window of vision

Technical field

The invention belongs to building field, be specifically related to the virtual window of a kind of vision.

Background technology

Inside the room of our daily inhabitation, sunlight is difficult to enter, and indoor are darker, even if by day, also need to turn on light, otherwise need on wall, again increase a window, but again window is offered outside wall, need wall to chisel, then window is arranged on the wall chiseled, while like this room body structure being damaged, have impact on the attractive in appearance of house, cost is higher, higher building, skyscraper is chiseled wall installation window process more complicated, dangerous high.

Summary of the invention

The invention provides the virtual window of a kind of vision, so that the wall solving existing house not to install window, the technical matters that daylighting is poor.

In order to solve above technical matters, the technical scheme that the present invention takes is:

The virtual window of a kind of vision, the virtual window of described vision comprises condenser, catoptron and astigmatoscope, described condenser is concave mirror, described catoptron and astigmatoscope are convex lens, described catoptron is positioned at the home position of described condenser, described condenser is provided with light hole, and described catoptron, astigmatoscope are relative with described light hole, and described catoptron and astigmatoscope are positioned at the both sides of described condenser.

Be preferably, the virtual window of described vision also comprises the first collimating mirror and the second collimating mirror, described first collimating mirror and the second collimating mirror are between described condenser and astigmatoscope, described first collimating mirror is relative with the second collimating mirror with described catoptron, and described second collimating mirror is relative with described astigmatoscope.

Be preferably, the virtual window of described vision also comprises projection screen.

The virtual window of a kind of vision, the virtual window of described vision comprises condenser and astigmatoscope, described condenser and reflective mirror are concave mirror, the diameter of described condenser is larger than the diameter of described reflective mirror, described reflective mirror is positioned at the home position of described condenser, described condenser is provided with light hole, and described reflective mirror is relative with described light hole.

Be preferably, the virtual window of described vision also comprises projection screen.

After employing technique scheme, the present invention uses optical frames to assemble natural light, and natural light is incident upon light face indoor wall being formed similar window, the virtual window of vision uses condenser to assemble natural light, natural light is reflexed to catoptron by condenser, and the natural light that condenser reflects is projected virtual window light face indoor wall being formed similar window by final reflection mirror.And can increase according to the regioselectivity of virtual window the projected path that the first collimating mirror and the second collimating mirror change natural light between condenser and astigmatoscope, thus change astigmatoscope and be incident upon virtual window position on wall.The virtual window of vision realizes on wall, increase virtual window by using optical element, and have good disguised and security, improve indoor brightness, daytime is indoor without the need to turning on light, and while saves energy, cost is lower.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the first topology view of the virtual window embodiment 1 of vision of the present invention;

Fig. 2 is the second topology view of the virtual window embodiment 1 of vision of the present invention;

Fig. 3 is the 3rd topology view of the virtual window embodiment 1 of vision of the present invention;

Fig. 4 is the first topology view of the virtual window embodiment 2 of vision of the present invention.

Embodiment

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making other embodiments all obtained under creative work prerequisite, belong to the scope of protection of the invention.

Embodiment 1

As shown in Figure 1, the virtual window of optical visual is made up of condenser 1, catoptron 2 and astigmatoscope 9, and wherein condenser 1 is concave mirror, and catoptron 2 and astigmatoscope 9 are convex lens.Condenser 1 is provided with light hole, and catoptron 2 is positioned at the home position of condenser 1, and catoptron 2, astigmatoscope 9 are relative with the light hole of condenser 1, and catoptron 2 and astigmatoscope 9 are positioned at the both sides of condenser 1, and astigmatoscope 9 are embedded in the first wall 4.When lamp 3 is irradiated on condenser 1, natural light gathering reflexes on catoptron 2 by condenser 1, and the natural light of gathering is reflexed on astigmatoscope 9 by the light hole on condenser 1 by catoptron 2.Natural lighting is mapped on the second wall 5 and forms virtual window light face 6 by last astigmatoscope 9, and the virtual window light face 6 be therefore incident upon on the second wall 5 adds indoor brightness.

As shown in Figure 2, when virtual window light face 6 optionally projects on the first wall 4 by needs, the better astigmatoscope 9 of light-dispersing effect can be changed, and on the first wall 4, a projection screen 8 is installed.Lamp 3 gathering reflexes on catoptron 2 by condenser 1, the natural light of gathering reflexes on astigmatoscope 9 by the light hole on condenser 1 by catoptron 2, and natural light irradiation on projection screen 8, thus is formed virtual window light face 6 by astigmatoscope 9, add indoor brightness.

As shown in Figure 3, when needing the position changing projection light, first collimating mirror 71 and the second collimating mirror 72 is installed between condenser 1 and astigmatoscope 9, first collimating mirror 71 and the second collimating mirror 72 are toward each other, and the first collimating mirror 71 is relative with catoptron 2, the second collimating mirror 72 is relative with astigmatoscope 9.After natural light gathering is reflexed to catoptron 2 by condenser 1, the natural light of gathering is reflexed to the first collimating mirror 71 by catoptron 2, natural light reflexes on the second collimating mirror 72 by the first collimating mirror 71, natural light is reflexed to astigmatoscope 9 by the second collimating mirror 72, and natural light projects on the second wall 5 and forms virtual window light face 6 by last astigmatoscope 9.

Embodiment 2

As shown in Figure 4, the virtual window of vision is made up of condenser 1 and reflective mirror 10, wherein condenser 1 and reflective mirror 10 are concave mirror, and condenser 1 is larger than the diameter of reflective mirror 10, condenser 1 is provided with light hole, reflective mirror 10 is positioned at the home position of condenser 1, and reflective mirror 10 is relative with the light hole of condenser 1.When lamp 3 is irradiated on condenser 1, natural light gathering reflexes on reflective mirror 10 by condenser 1, and the natural light of gathering reflexes on the second wall 5 through the light hole on condenser 1 and the first wall 4 by reflective mirror 10, form virtual window light face 6, thus increase indoor brightness.

When virtual window light face 6 optionally projects on the first wall 4 by needs, a better reflective mirror 10 of light-dispersing effect can be changed, and on the first wall 4, a projection screen 8 is installed.Lamp 3 gathering reflexes on reflective mirror 10 by condenser 1, and the natural light of gathering is reflexed on projection screen 8 by the light hole on condenser 1 and the first wall 4 by reflective mirror 10, thus forms virtual window light face 6, adds indoor brightness.

The virtual window of vision uses condenser 1 to assemble natural light, and natural light is reflexed to catoptron 2 by condenser 1, and the natural light that condenser 1 reflects is projected the virtual window light face 6 indoor wall being formed similar window by final reflection mirror 2.And can increase according to the regioselectivity of virtual window the projected path that the first collimating mirror 71 and the second collimating mirror 72 change natural light between condenser 1 and astigmatoscope 9, thus change astigmatoscope 9 and be incident upon virtual window position on wall.The virtual window of vision realizes on wall, increase virtual window by using optical element, and have good disguised and security, improve indoor brightness, daytime is indoor without the need to turning on light, and while saves energy, cost is lower.

Last it is noted that above embodiment only illustrates technical scheme of the present invention, be not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (5)

1. the virtual window of vision, it is characterized in that, the virtual window of described vision comprises condenser, catoptron and astigmatoscope, described condenser is concave mirror, described catoptron and astigmatoscope are convex lens, and described catoptron is positioned at the home position of described condenser, and described condenser is provided with light hole, described catoptron, astigmatoscope are relative with described light hole, and described catoptron and astigmatoscope are positioned at the both sides of described condenser.

2. the virtual window of vision according to claim 1, it is characterized in that, the virtual window of described vision also comprises the first collimating mirror and the second collimating mirror, described first collimating mirror and the second collimating mirror are between described condenser and astigmatoscope, described first collimating mirror is relative with the second collimating mirror with described catoptron, and described second collimating mirror is relative with described astigmatoscope.

3. the virtual window of vision according to claim 1, is characterized in that, the virtual window of described vision also comprises projection screen.

4. the virtual window of vision, it is characterized in that, the virtual window of described vision comprises condenser and astigmatoscope, described condenser and reflective mirror are concave mirror, the diameter of described condenser is larger than the diameter of described reflective mirror, described reflective mirror is positioned at the home position of described condenser, and described condenser is provided with light hole, and described reflective mirror is relative with described light hole.

5. the virtual window of vision according to claim 4, is characterized in that, the virtual window of described vision also comprises projection screen.