CN104556743A - Temperature adjustment glass - Google Patents

Abstract

The invention discloses temperature adjustment glass which comprises an upper glass plate and a lower glass plate same in area, wherein a vacuum cavity is formed between the upper glass plate and the lower glass plate after the peripheries of the upper glass plate and the lower glass plate are sealed with epoxy resin glue; an optical glass layer is adhered to a part, positioned in the vacuum cavity, of the lower surface of the upper glass plate; tiny crystal particles of silver halide and copper oxide are contained in the optical glass layer; meanwhile, a liquid crystal layer is adhered to a part, positioned in the vacuum cavity, of the upper surface of the lower glass plate and connected with a PLC (programmable logic controller) positioned outside the temperature adjustment glass; the PLC is connected with a temperature sensor. The temperature adjustment glass has the advantages of relatively good temperature preservation and adjustment effects.

Description

Temperature-regulating glass

Technical field

The present invention relates to building materials technology field, especially relate to a kind of temperature-regulating glass.

Background technology

Glass has the history of about more than 3000 years.Along with the development of technology, current kind is varied, only point just to comprise according to production technique: embossed glass, forge glass, crystal color glass glass, coloured glaze glass, wire glass, polycrystalline glass, glass Mosaic, toughened glass, laminated glass, double glazing, dimming glass, fluorescent glass etc., and a lot of furnishings artwork is also glass preparation.Certainly, for several more glass preparation is the main raw of tabular as window.Wherein, the sheet glass with good heat insulation effect is then very popular.Such as, the vacuum glass known by people.But the thermoregulation effect of such glass is still not ideal enough.

Summary of the invention

The object of this invention is to provide a kind of temperature-regulating glass, it has the feature of insulation thermoregulation effect preferably.

The technical solution adopted in the present invention is: temperature-regulating glass, comprise the upper glass plates that area is identical, lower glass plate, after this upper glass plates and the surrounding of this lower glass plate are sealed by epoxy resin glue, vacuum chamber is formed between this upper glass plates and this lower glass plate, the part lower surface of described upper glass plates being positioned at this vacuum chamber is pasted with optical glass layer, the tiny crystal grains of silver halide and cupric oxide is contained in this optical glass layer, simultaneously, the part that the upper surface of this lower glass plate is positioned at this vacuum chamber is pasted with liquid crystal layer, this liquid crystal layer is connected with the PLC being positioned at this temperature-regulating glass outside, this PLC is connected with a temperature sensor.

The thickness of described optical glass layer is no more than 2mm.

The thickness of described liquid crystal layer is no more than 2mm.

The present invention is advantageously: have and be incubated thermoregulation effect preferably.Temperature-regulating glass of the present invention, on the basis of advantage with vacuum glass, by increasing the optical glass layer that can carry out variable color according to intensity of illumination change, can regulate printing opacity degree then to regulate the room temperature according to intensity of illumination automatically.Meanwhile, its liquid crystal layer had can the change of environmentally temperature to regulate printing opacity degree, then have adjusted temperature further.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described:

Fig. 1 is the front sectional view of embodiments of the invention.

In figure:

11, upper glass plates, 12, lower glass plate, 13, epoxy resin glue, 14, vacuum chamber;

20, optical glass layer;

30, liquid crystal layer;

40、PLC；

50, temperature sensor.

Embodiment

Embodiment, as shown in Figure 1: temperature-regulating glass, comprises the identical upper glass plates of area 11, lower glass plate 12.This upper glass plates 11 and this lower glass plate 12 can be all toughened glass.After this upper glass plates 11 and the surrounding of this lower glass plate 12 are sealed by epoxy resin glue 13, between this upper glass plates 11 and this lower glass plate 12, be formed with vacuum chamber 14.

Further say, the part lower surface of this upper glass plates 11 being positioned at this vacuum chamber 14 is pasted with optical glass layer 20.So-called opticglass refers to common mixing by special formulation with the oxide compound of high purity silicon, boron, sodium, potassium, zinc, lead, magnesium, calcium, barium etc., high temperature melt in platinum crucible, with ultrasonic stirring is even, degas bubble, then through lowering the temperature lentamente for a long time, in order to avoid glass block produces internal stress, and, cooled glass block, measure through opticinstrument, whether inspection purity, transparency, uniformity coefficient, specific refractory power and dispersive power close specification, and, the glass that qualified glass block is made through heating forging and stamping.Usually, opticglass has good transmittance, is used for preparing ophthalmic lens.Adopt opticglass in the present embodiment, object is to utilize its good transmittance.The tiny crystal grains of silver halide and cupric oxide is contained in this optical glass layer 20.The adding amount and adding way of the tiny crystal grains of this silver halide and cupric oxide is same as the preparation of common chameleon glass block.Preferably, the thickness of this optical glass layer 20 is no more than 2mm.Like this, when extraneous intensity of illumination is stronger, this silver halide grain can be decomposed into silver and halogen, because the particulate of silver is in dark, so this optical glass layer 20 darkens; When dim (weak), silver and halogen are under the effect of catalyst oxidation copper, and chemical combination generates silver halide again, so the color of this optical glass layer 20 shoals again.That is, to the adjustment that intensity of illumination is made, indoor temperature variation is changed preferably.

Further say, the part that the upper surface of this lower glass plate 12 is positioned at this vacuum chamber 14 is pasted with liquid crystal layer 30.Preferably, the thickness of this liquid crystal layer 30 is also no more than 2mm.Meanwhile, this liquid crystal layer 30 is connected with the PLC40 being positioned at this temperature-regulating glass outside, and this PLC40 is connected with a temperature sensor 50.This temperature sensor 50 can be positioned at indoor.Like this, when indoor temperature change generated in case, temperature information is passed to this PLC40 by this temperature sensor 50, and this PLC40 controls this liquid crystal layer 30 and regulates printing opacity degree.That is, this temperature-regulating glass changes according to the temperature variation of indoor.

The foregoing is only the preferred embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every utilize specification sheets of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (3)

1. temperature-regulating glass, comprise the identical upper glass plates of area (11), lower glass plate (12), after the surrounding of this upper glass plates (11) and this lower glass plate (12) is sealed by epoxy resin glue (13), vacuum chamber (14) is formed between this upper glass plates (11) and this lower glass plate (12), it is characterized in that: the part lower surface of described upper glass plates (11) being positioned at this vacuum chamber (14) is pasted with optical glass layer (20), the tiny crystal grains of silver halide and cupric oxide is contained in this optical glass layer (20), simultaneously, the part that the upper surface of this lower glass plate (12) is positioned at this vacuum chamber (14) is pasted with liquid crystal layer (30), this liquid crystal layer (30) is connected with the PLC(40 being positioned at this temperature-regulating glass outside), this PLC(40) be connected with a temperature sensor (50).

2. temperature-regulating glass according to claim 1, is characterized in that: the thickness of described optical glass layer (20) is no more than 2mm.

3. temperature-regulating glass according to claim 1, is characterized in that: the thickness of described liquid crystal layer (30) is no more than 2mm.