CN206741084U - Dimming glass based on intelligent control - Google Patents

Abstract

The utility model discloses the dimming glass based on intelligent control,Including interior safety glass,Outer safety glass,Vacuum glass between interior safety glass and outer safety glass,Vacuum glass is built with colored liquid,And photochromic layer is enclosed with vacuum glass,There are two to be parallel to each other and the vacuum layer parallel with interior safety glass in photochromic layer,Photochromic layer is divided into three identical photochromic layers by vacuum layer,Three photochromic layer identical one end are connected to three one-way water outlet valves,The other end of three photochromic layers is connected to three and unidirectionally enters water valve,One-way water outlet valve and unidirectionally enter the other end of water valve and be connected with vacuum glass,Pressure sensor A and pressure sensor B are connected with interior safety glass,Pressure sensor A control colored liquids flow into photochromic layer out of vacuum glass by one-way water outlet valve,Pressure sensor B controls colored liquid to flow into vacuum glass by unidirectionally entering water valve from photochromic layer.

Description

Dimming glass based on intelligent control

Technical field

It the utility model is related to a kind of dimming glass, and in particular to the dimming glass based on intelligent control.

Background technology

As environmental protection, energy-conservation are increasingly subject to pay attention to, the reasonable utilization of the energy, the development of energy-conserving product and exploitation obtain very big Progress.Under this background, researcher the early stage eighties proposes electrochromic material being applied to building, automobile, fly In the energy-conservation lighting system such as machine, the thermochromism glass " smart window " of dynamic regulation solar radiant energy transmitance is formd (Smartwindow).In recent years, the focus of research and the application always research of thermochromism glass.

The Discoloration mechanism of smart window can be divided into electrochromism (electrically susceptible), temperature induced color changing (temperature-sensitive), gas-discoloration (air-sensitive) with And photochromic (photosensitive) etc..The regulation different degrees of to sunshine can be achieved in smart window based on these Discoloration mechanisms.

Existing photo chromic glass is the color that glass is controlled by conditions such as energization, temperature, light mostly, and it is adjusted Control, but these conditions are based on, the change to color can not be controlled effectively, it is impossible to according to the situation of oneself and be needed more preferable It is regulated and controled.

Utility model content

Technical problem to be solved in the utility model is that existing photo chromic glass can not make according to the changes in demand of itself With it is inconvenient and not intelligence, and it is an object of the present invention to provide the dimming glass based on intelligent control, solution must not be adjusted according to own situation The problem of controlling glass colour.

The utility model is achieved through the following technical solutions：

Dimming glass based on intelligent control, including interior safety glass, outer safety glass, interior safety glass and outer tempering glass Vacuum glass between glass, the vacuum glass are enclosed with photochromic layer built with colored liquid in vacuum glass, the change There are two to be parallel to each other and the vacuum layer parallel with interior safety glass in chromatograph, the vacuum layer by photochromic layer be divided into three it is identical Photochromic layer, described three photochromic layer identicals one end is connected to three one-way water outlet valves, the other end of three photochromic layers It is connected to three and unidirectionally enters water valve, the one-way water outlet valve and unidirectionally enters the other end of water valve and be connected with vacuum glass, institute State and pressure sensor A and pressure sensor B is connected with interior safety glass, the pressure sensor A controls colored liquid from true Photochromic layer is flowed into by one-way water outlet valve in empty glass, the pressure sensor B controls colored liquid passes through unidirectional from photochromic layer Enter water valve and flow into vacuum glass.

Further, when in use, by press pressure sensors A, pressure sensor A passes through control after experiencing pressure Device A control water pump A work, makes colored liquid be flowed into from vacuum glass by one-way water outlet valve in photochromic layer, if thinking glass Color is deeper, then pins pressure sensor A always, more colored liquid is flowed into photochromic layer, the photochromic layer of this structure is total to Have three layers, when color is most deep, colored liquid is full of three layers of photochromic layer, therefore, people can according to itself need adjust glass The depth of color, also, when needing the glass of shallower color, press pressure sensor B, pressure sensor B transmit signal Controller B is given, controller B control water pump B work, the colored liquid in photochromic layer is flowed into vacuum glass by unidirectionally entering water valve In, and then make the lighter of glass.

Further, this structure has vacuum structure, has preferable soundproof effect, when in use can not only be according to certainly The color of the autonomous regulation glass of body situation, with more preferable soundproof effect.

Specifically, the dimming glass based on intelligent control, the thickness of the photochromic layer is more than photochromic layer close to interior tempering glass Distance of the side of glass to vacuum glass close to the side of interior safety glass.So be more convenient for people adjust glass color, become Change more notable.

Preferably, the dimming glass based on intelligent control, between the vacuum glass and interior safety glass and vacuum glass Flexible transparent damp film is respectively connected between glass and outer safety glass.Damp film can effectively to this glass by Impulsive force enter row buffering, prevent glass to be destroyed, further increase service life.

Preferably, the dimming glass based on intelligent control, insulation particle, institute uniformly are filled with the transparent damp film Insulation particle is stated to be tin-doped indium oxide, fluorine doped tin oxide, Al-Doped ZnO or mix one or more in antimony indium oxide.Ben Bo Glass also has preferable effect of heat insulation, easily facilitates use.

Specifically, the dimming glass based on intelligent control, pressure sensor A and pressure sensor the B outsourcings are with Bright protective layer, ultraviolet resistant layer is connected between the protective clear layer and interior safety glass.It is protective layer used to be passed in protection pressure Sensor A and pressure sensor B, prevent that extraneous and it is directly contacted, and then prevent from being destroyed, shorten service life.

The utility model compared with prior art, has the following advantages and advantages：

1st, dimming glass of the utility model based on intelligent control, this glass can be according to the service conditions of people itself, certainly The depth of the color of main regulation glass, it is more convenient and practical, it is also more intelligent during use, compared with existing photo chromic glass, this Glass is more practical；

2nd, dimming glass of the utility model based on intelligent control, the structure of this glass is simple, is easy to produce, and use It is convenient；

3rd, dimming glass of the utility model based on intelligent control, this glass also have preferable sound insulation, heat-insulated, buffering punching Power and the function of antiultraviolet are hit, therefore the performance of this glass is more preferable, easily facilitates use.

Brief description of the drawings

Accompanying drawing described herein is used for providing further understanding the utility model embodiment, forms the one of the application Part, the restriction to the utility model embodiment is not formed.In the accompanying drawings：

Fig. 1 is the utility model structure diagram.

Mark and corresponding parts title in accompanying drawing：

Safety glass in 1-, the outer safety glass of 2-, 3- vacuum glass, 4- photochromic layers, 5- vacuum layers, 6- photochromic layers, 7- are mono- To outlet valve, 8- unidirectionally enters water valve, 9- pressure sensors A, 10- pressure sensor B, 11- protective clear layer, 12- antiultraviolets Layer, the transparent damp films of 13-.

Embodiment

For the purpose of this utility model, technical scheme and advantage is more clearly understood, with reference to embodiment and accompanying drawing, The utility model is described in further detail, and exemplary embodiment of the present utility model and its explanation are only used for explaining this Utility model, it is not intended as to restriction of the present utility model.

Embodiment 1

As shown in figure 1, dimming glass of the utility model based on intelligent control, including interior safety glass 1, outer safety glass 2nd, the vacuum glass 3 between interior safety glass 1 and outer safety glass 2, the vacuum glass 3 is built with colored liquid, and very Photochromic layer 4 is enclosed with empty glass 3, there are two to be parallel to each other and the vacuum layer parallel with interior safety glass 1 in the photochromic layer 4 5, the vacuum layer 5 divides photochromic layer 4 to be connected respectively for three identical photochromic layers 6, described identical one end of three photochromic layers 6 There are three one-way water outlet valves 7, the other end of three photochromic layers 6 is connected to three and unidirectionally enters water valve 8, the one-way water outlet valve 7 and unidirectionally enter the other end of water valve 8 and be connected with vacuum glass 3, pressure sensor A9 and pressure are connected with the interior safety glass 1 Force snesor B10, the pressure sensor A9 control colored liquid to flow into discoloration by one-way water outlet valve 7 out of vacuum glass 3 Layer 6, the pressure sensor B10 control colored liquid to flow into vacuum glass 3 by unidirectionally entering water valve 8 from photochromic layer 6.

Embodiment 2

The described dimming glass based on intelligent control, including interior safety glass 1, outer safety glass 2, interior safety glass 1 Vacuum glass 3 between outer safety glass 2, the vacuum glass 3 wrap up built with colored liquid in vacuum glass 3 There is photochromic layer 4, there are two to be parallel to each other and the vacuum layer 5 parallel with interior safety glass 1 in the photochromic layer 4, the vacuum layer 5 Photochromic layer 4 is divided and is connected to three for three identical photochromic layers 6, described identical one end of three photochromic layers 6 and unidirectionally goes out Water valve 7, the other ends of three photochromic layers 6 are connected to three and unidirectionally enter water valve 8, the one-way water outlet valve 7 and unidirectionally enter water The other end of valve 8 is connected with vacuum glass 3, and pressure sensor A9 and pressure sensor are connected with the interior safety glass 1 B10, the pressure sensor A9 control colored liquid to flow into photochromic layer 6 by one-way water outlet valve 7 out of vacuum glass 3, described Pressure sensor B10 controls colored liquid to flow into vacuum glass 3 by unidirectionally entering water valve 8 from photochromic layer 6.The thickness of photochromic layer 6 Distance more than photochromic layer 4 close to the side of interior safety glass 1 to vacuum glass 3 close to the side of interior safety glass 1.It is described true It is respectively connected between empty glass 3 and interior safety glass 1 and between vacuum glass 3 and outer safety glass 2 flexible transparent Damp film 13.Uniformly be filled with insulation particle in the transparent damp film 13, the insulation particle be tin-doped indium oxide, Fluorine doped tin oxide, Al-Doped ZnO mix one or more in antimony indium oxide.

Embodiment 3

The described dimming glass based on intelligent control, including interior safety glass 1, outer safety glass 2, interior safety glass 1 Vacuum glass 3 between outer safety glass 2, the vacuum glass 3 wrap up built with colored liquid in vacuum glass 3 There is photochromic layer 4, there are two to be parallel to each other and the vacuum layer 5 parallel with interior safety glass 1 in the photochromic layer 4, the vacuum layer 5 Photochromic layer 4 is divided and is connected to three for three identical photochromic layers 6, described identical one end of three photochromic layers 6 and unidirectionally goes out Water valve 7, the other ends of three photochromic layers 6 are connected to three and unidirectionally enter water valve 8, the one-way water outlet valve 7 and unidirectionally enter water The other end of valve 8 is connected with vacuum glass 3, and pressure sensor A9 and pressure sensor are connected with the interior safety glass 1 B10, the pressure sensor A9 control colored liquid to flow into photochromic layer 6 by one-way water outlet valve 7 out of vacuum glass 3, described Pressure sensor B10 controls colored liquid to flow into vacuum glass 3 by unidirectionally entering water valve 8 from photochromic layer 6.The thickness of photochromic layer 6 Distance more than photochromic layer 4 close to the side of interior safety glass 1 to vacuum glass 3 close to the side of interior safety glass 1.It is described true It is respectively connected between empty glass 3 and interior safety glass 1 and between vacuum glass 3 and outer safety glass 2 flexible transparent Damp film 13.Pressure sensor A9 and pressure sensor the B10 outsourcings are with protective clear layer 11, the protective clear layer Ultraviolet resistant layer 12 is connected between 11 and interior safety glass 1.

Above-described embodiment, the purpose of this utility model, technical scheme and beneficial effect are entered One step describes in detail, should be understood that and the foregoing is only specific embodiment of the present utility model, is not used to limit Determine the scope of protection of the utility model, it is all within the spirit and principles of the utility model, any modification for being made, equally replace Change, improve, should be included within the scope of protection of the utility model.

Claims (5)

1. the dimming glass based on intelligent control, it is characterised in that including interior safety glass (1), outer safety glass (2), interior steel Change glass (1) and outer safety glass (2) between vacuum glass (3), the vacuum glass (3) built with colored liquid, and Photochromic layer (4) is enclosed with vacuum glass (3), there are two to be parallel to each other and put down with interior safety glass (1) in the photochromic layer (4) Photochromic layer (4) is divided into three identical photochromic layers (6), three identicals by capable vacuum layer (5), the vacuum layer (5) Photochromic layer (6) identical one end is connected to three one-way water outlet valves (7), the other end point of three identical photochromic layers (6) Three are not connected with unidirectionally enters water valve (8), the one-way water outlet valve (7) and the other end and vacuum glass for unidirectionally entering water valve (8) (3) connect, pressure sensor A (9) and pressure sensor B (10), the pressure sensing are connected with the interior safety glass (1) Device A (9) controls colored liquid to flow into three identical photochromic layers (6), institute by one-way water outlet valve (7) out of vacuum glass (3) Stating pressure sensor B (10) controls colored liquid to flow into vacuum glass by unidirectionally entering water valve (8) from three identical photochromic layers (6) Glass (3).

2. the dimming glass according to claim 1 based on intelligent control, it is characterised in that the thickness of the photochromic layer (6) Degree is more than photochromic layer (4) close to the side of interior safety glass (1) to vacuum glass (3) close to the side of interior safety glass (1) Distance.

3. the dimming glass according to claim 1 based on intelligent control, it is characterised in that the vacuum glass (3) with Flexible transparent damping is respectively connected between interior safety glass (1) and between vacuum glass (3) and outer safety glass (2) Film (13).

4. the dimming glass according to claim 3 based on intelligent control, it is characterised in that the transparent damp film (13) insulation particle is uniformly filled with, the insulation particle is tin-doped indium oxide, fluorine doped tin oxide, Al-Doped ZnO or mixes antimony One or more in indium oxide.

5. the dimming glass according to claim 1 based on intelligent control, it is characterised in that the pressure sensor A (9) Protective clear layer (11) is with pressure sensor B (10) outsourcing, between the protective clear layer (11) and interior safety glass (1) It is connected with ultraviolet resistant layer (12).