CN205640293U - Luminescent glass - Google Patents

Abstract

The utility model relates to an insulating glass field, concretely relates to luminescent glass, include: outer glass, inlayer glass and luminous body, outer glass and inlayer glass are parallel to each other, be provided with air inflation layer between outer glass and the inlayer glass, the luminous body sets up the edge at air inflation layer, inner sheet glass's both sides are provided with a plurality of refraction units and the control unit respectively, one -to -one between refraction unit and the the control unit, and the refraction unit is located air inflation layer.

Description

A kind of fluorescent glass

Technical field

This utility model relates to heat insulation glass field, is specifically related to a kind of fluorescent glass.

Background technology

At present, the way of realization of fluorescent glass is mainly two kinds: the first, a large amount of lamp bead is set at the back side of glass, and light fixture is arranged in various pattern, thus form the fluorescent glass with figure of all kinds, such as, fluorescent glass disclosed in CN204695280U, it there is problems of, lamp bead luminescence produces substantial amounts of heat and energy consumption, for refrigerator door, the heat-insulating property of refrigerator can be had a strong impact on, and less economical.The second, at the back side of glass, noctilucence layer is set, absorb luminous energy by daytime, at night or allow face glass oneself luminous, such as under dark surrounds, a kind of Novel luminous glass disclosed in CN201484032U, it there is problems of, and Noctilucent material has damped cycle, and its brightness can increase over time and reduce, and for the glass door under freezer French casement is this often in low light environment, the luminous energy that noctilucence layer absorbs also tends to obtain good illumination effect insufficient for it.Additionally, above two scheme be all only able to display single luminous pattern, decorative effect is poor.

Utility model content

The purpose of this utility model, is the problem in order to solve in background technology, it is provided that a kind of fluorescent glass.

Above-mentioned technical purpose of the present utility model has the technical scheme that

A kind of fluorescent glass, including: glass outer, inner layer glass and luminous body, described glass outer and inner layer glass are parallel to each other, it is provided with airflow layer between described glass outer and inner layer glass, described luminous body is arranged on the edge of airflow layer, the both sides of described inner layer glass are respectively arranged with some refractive power unit and control unit, one_to_one corresponding between described refractive power unit and control unit, and refractive power unit and are positioned at airflow layer.

Described refractive power unit includes hinge head, refracting plate and magnetic piece, described hinge head and magnetic piece are separately positioned on the two ends of dark slide, described refracting plate is hinged on inner layer glass surface by hinge head, refracting plate is controlled the control of unit under magnetic piece effect, thus rotate at airflow layer, according to the angle that refracting plate rotates, the light of luminous body is produced refraction.

Described control unit includes support, centring ring, bull stick and spring, described centring ring is fixed in support, described bull stick includes by cap, latch, magnetic head and the body of rod, described it is separately positioned on body of rod two ends by cap and magnetic head, described latch is arranged on the sidewall of the body of rod, the described body of rod is enclosed within centring ring, described spring is arranged on by between cap and centring ring, be provided with the first draw-in groove alternately and the second draw-in groove successively on described centring ring, described first draw-in groove in the axial degree of depth of centring ring more than the second draw-in groove in the axial degree of depth of centring ring.Magnetic head is identical with the polarity of magnetic piece opposite face so that magnetic head has the repulsive force to magnetic piece, by adjusting the scope of the position change repulsive force of magnetic head, such that it is able to change the position of magnetic piece, reaches the control action to refracting plate.Bull stick is under the effect by cap and spring, and latch is stuck in the first draw-in groove or the second draw-in groove inner position respectively, makes magnetic head have two different positions.

One refractive power unit is equivalent to a pixel, under the control of the control unit, multiple refractive power unit are respectively at the state of refractive power or printing opacity, thus producing different patterns, described luminous body is LED lamp bead, and refractive power unit and control unit are by magnetic interaction no power, therefore whole luminescence process energy consumption and heating are less, and concentrate on the edge of glass, under glass uses double-decker, the thermal and insulating performance of glass is good.

As preferably, described second draw-in groove is respectively equipped with, with on the face that described latch contacts, the inclined-plane that incline direction is identical, facilitates latch switching position between the first draw-in groove and the second draw-in groove.

As preferably, described refracting plate is semi-transflective reflective glass, and semi-transflective reflective glass can be while reflection light, transmissive portion light, therefore can ensure that the light of self-luminous body can enter the refractive power unit of lower floor through upper strata refractive power unit.

As preferably, described refracting plate length, more than the thickness of airflow layer, limits the peak excursion angle of refracting plate, to obtain good illumination effect.

As preferably, described airflow layer edge is provided with fluid sealant, and described luminous body is arranged in fluid sealant, improves the effect of heat insulation of glass.

As preferably, in described airflow layer, it is filled with argon, improves the effect of heat insulation of glass further.

As preferably, the range of exposures of described luminous body is to inside glass outer outside hinge head, outside described hinge head, indication is the hinge head edge towards glass outer side, inside described glass outer, indication is the glass outer side towards airflow layer, make hinge head part will not receive illumination, it is to avoid hinge head produce veiling glare affect illumination effect.

In sum, the beneficial effects of the utility model:

A kind of fluorescent glass the most described in the utility model, by carrying magnetic control unit, control the knuckle of refracting plate, reach the transmission to the light that luminous body produces and the effect that glass is luminous is played in refraction, only luminous body power consumption heating during whole, the temperature impact overall on glass is minimum, has influence on the heat insulation effect of freezer French casement for a moment, and glass uses double-decker to further ensure that heat insulation effect simultaneously.

A kind of fluorescent glass the most described in the utility model, by control unit, the refractive power situation of each refractive power unit that can arbitrarily change, thus produces different pattern effects.

A kind of fluorescent glass the most described in the utility model, pattern has stronger third dimension.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model；

Fig. 2 is schematic perspective view of the present utility model；

Fig. 3 is the motion schematic diagram of control unit in this utility model；

Fig. 4 is the structural representation of centring ring in this utility model；

Fig. 5 is the structural representation of bull stick in this utility model；

Fig. 6 is the motion schematic diagram of refracting plate in this utility model；

Fig. 7 is the range of exposures schematic diagram of luminous body in this utility model.

Detailed description of the invention

Specific examples below is only to explanation of the present utility model; it is not to restriction of the present utility model; the present embodiment can be made after reading this specification by those skilled in the art as required does not has the amendment of creative contribution, but as long as all being protected by Patent Law in right of the present utility model.

With embodiment, this utility model is described in detail below in conjunction with the accompanying drawings.

Embodiment 1:

According to Fig. 1～Fig. 7, a kind of fluorescent glass, including: glass outer 1, inner layer glass 2 and luminous body 3, glass outer 1 and inner layer glass 2 are parallel to each other, airflow layer 6 it is provided with between glass outer 1 and inner layer glass 2, it is filled with argon in airflow layer 6, luminous body 3 is fixed in fluid sealant 61, the both sides of inner layer glass 2 are respectively arranged with some refractive power unit 4 and control unit 5, one_to_one corresponding between refractive power unit 4 and control unit 5, and refractive power unit 4 is positioned at airflow layer 6, airflow layer 6 edge is provided with fluid sealant 61, luminous body 3 is arranged in fluid sealant 61, luminous body 3 uses LED lamp bead.

Refractive power unit 4 includes hinge head 41, refracting plate 42 and magnetic piece 43, hinge head 41 and magnetic piece 43 are separately positioned on the two ends of dark slide 42, refracting plate 42 is hinged on inner layer glass 2 surface by hinge head 41, and refracting plate 42 is semi-transflective reflective glass, and its length is more than the thickness of airflow layer 6.Control unit 5 includes support 51, centring ring 52, bull stick 53 and spring 54, centring ring 52 is fixed in support 51, bull stick 53 includes by cap 531, latch 532, magnetic head 533 and the body of rod 534, it is separately positioned on the body of rod 534 two ends by cap 531 and magnetic head 533, latch 532 is arranged on the sidewall of the body of rod 534, the body of rod 534 is enclosed within centring ring 52, spring 54 is arranged on by between cap 531 and centring ring 52, the first draw-in groove 521 and the second draw-in groove 522 successively alternately it is provided with on centring ring 52, first draw-in groove 521 in the axial degree of depth of centring ring 52 more than the second draw-in groove 522 in the axial degree of depth of centring ring 52.Second draw-in groove 522 is respectively equipped with, with on the face that latch 532 contacts, the inclined-plane that incline direction is identical.

According to Fig. 1, light sends from luminous body 3, after arrival refractive power unit 4 under the effect of refracting plate 42, part refraction another part transmission, the part of refraction sheds outside glass, is seen by human eye, being partially into next refractive power unit 4 or stay in glass of transmission.According to Fig. 3～Fig. 6, pressing by cap 531, the body of rod 534 drives latch 532 to slip into the second draw-in groove 522 from the first draw-in groove 521, magnetic piece 43, under the repulsive interaction of magnetic head 533, drives refracting plate 42 to rotate so that it is to become the state of tilting, thus carrying out refractive power, this element is just luminous outside glass.Again pressing by cap 531, the body of rod 534 drives latch 532 to slip into the first draw-in groove 521 from the second draw-in groove 522, and due to the change of magnetic head 533 with the spacing of magnetic piece 43, refracting plate 42 is turned down, no longer refractive power, and this element is no longer the most luminous outside glass.

According to Fig. 7, the range of exposures of luminous body 3 is that outside hinge head 41, indication is the hinge head 41 edge towards glass outer 1 side, and inside glass outer 1, indication is the glass outer 1 side towards airflow layer 6 to inside glass outer 1 outside hinge head 41.

Claims (7)

1. a fluorescent glass, it is characterized in that, including: glass outer (1), inner layer glass (2) and luminous body (3), described glass outer (1) and inner layer glass (2) are parallel to each other, airflow layer (6) it is provided with between described glass outer (1) and inner layer glass (2), described luminous body (3) is arranged on the edge of airflow layer (6), the both sides of described inner layer glass (2) are respectively arranged with some refractive power unit (4) and control unit (5), one_to_one corresponding between described refractive power unit (4) and control unit (5), and refractive power unit (4) is positioned at airflow layer (6)；

Described refractive power unit (4) includes hinge head (41), refracting plate (42) and magnetic piece (43), described hinge head (41) and magnetic piece (43) are separately positioned on the two ends of dark slide (42), and described refracting plate (42) is hinged on inner layer glass (2) surface by hinge head (41)；

nullDescribed control unit (5) includes support (51)、Centring ring (52)、Bull stick (53) and spring (54)，Described centring ring (52) is fixed in support (51)，Described bull stick (53) includes by cap (531)、Latch (532)、Magnetic head (533) and the body of rod (534)，Described it is separately positioned on the body of rod (534) two ends by cap (531) and magnetic head (533)，Described latch (532) is arranged on the sidewall of the body of rod (534)，The described body of rod (534) is enclosed within centring ring (52)，Described spring (54) is arranged on by between cap (531) and centring ring (52)，The first draw-in groove (521) and the second draw-in groove (522) replaced successively it is provided with on described centring ring (52)，Described first draw-in groove (521) in the axial degree of depth of centring ring (52) more than the second draw-in groove (522) in the axial degree of depth of centring ring (52).

A kind of fluorescent glass the most according to claim 1, it is characterised in that be respectively equipped with, on the face that described second draw-in groove (522) contacts with described latch (532), the inclined-plane that incline direction is identical.

A kind of fluorescent glass the most according to claim 2, it is characterised in that described refracting plate (42) is semi-transflective reflective glass.

A kind of fluorescent glass the most according to claim 3, it is characterised in that described refracting plate (42) length is more than the thickness of airflow layer (6).

A kind of fluorescent glass the most according to claim 4, it is characterised in that described airflow layer (6) edge is provided with fluid sealant (61), and described luminous body (3) is arranged in fluid sealant (61).

A kind of fluorescent glass the most according to claim 5, it is characterised in that described airflow layer is filled with argon in (6).

A kind of fluorescent glass the most according to claim 6, it is characterized in that, the range of exposures of described luminous body (3) is to glass outer (1) inner side from hinge head (41) outside, described hinge head (41) outside indication is the hinge head (41) edge towards glass outer (1) side, and described glass outer (1) inner side indication is the glass outer (1) side towards airflow layer (6).