CN207625517U - A kind of energy-saving circuit system, transparent conducting glass and intelligent building glass - Google Patents

Abstract

A kind of energy-saving circuit system of the utility model offer, transparent conducting glass and intelligent building glass, wherein energy-saving circuit system, including transparent conductive film, light-emitting component；Transparent conductive film is divided into multiple conductive areas by isolation circuit；Light-emitting component arrangement form multiple lines and multiple rows matrix on nesa coating；The current input terminal of each row light-emitting component is connected in series with by conducting wire and conductive area simultaneously with current output terminal；The signal input part for respectively arranging corresponding light-emitting component is connected in series with by conducting wire and conductive area simultaneously with signal output end；The full line light-emitting component that each row is connected in series with is connected in parallel in the both ends of power supply by conductive area.Using the intelligent building glass of energy-saving circuit system provided by the utility model, when work, conducting wire either transmits signal with transparent conductive film corporate conductive than individually using conducting wire or individually using the effect of transparent conductive film more preferable, while can reach good energy-saving effect.

Description

A kind of energy-saving circuit system, transparent conducting glass and intelligent building glass

Technical field

The utility model is related to intelligent building glass art, more particularly to a kind of energy-saving circuit system, transparent conducting glass And intelligent building glass.

Background technology

Glass is a kind of transparency, intensity and all very high material of hardness, is in chemical inertness in surroundings, will not It works with biology.Therefore, purposes is very extensive.Fluorescent glass is the high-tech that photoelectric technology and glass technology deeply develop Product is widely used in the necks such as interior/exterior decoration, furniture design, fluorescent tube Lighting Design, outdoor cladding glass, glass sunlight house design Domain, in commercial building and beautification of landscape in application, the LED illumination System in conjunction with popular is performed light coloring variation effect, Existing good daylighting function, but have certain energy saving and riotous with colour, gorgeous decorative effect, be conventional clear glass or The incomparable new product of coloured glass.

Intelligent building glass is the high-tech product that photoelectric technology and glass technology deeply develop, in commercial building and landscape Beautification is in application, the LED illumination System in conjunction with popular is performed light coloring variation effect, existing good daylighting function, again It is that conventional clear glass or coloured glass are incomparable with certain energy saving and riotous with colour, gorgeous decorative effect New product has unlimited wide application prospect.

It is isolated circuit on conductive layer in existing intelligent glass and is divided into different blocks, each block is by intelligent glass The conducting wire of glass side is powered, and since conductive layer has certain resistance, is located at the LED light of intelligent glass intermediate region, is equivalent to It has connected resistance, therefore such intelligent glass is in use, transparent conducting glass can generate heat, and generate a large amount of heat, It needs to consume substantial portion of electric energy on conductive layer, and not energy-efficient.

Utility model content

Not energy-efficient when to solve the problems, such as above-mentioned existing intelligent building glass work, the utility model embodiment provides a kind of The energy-saving circuit system of transparent conducting glass, including transparent conductive film, light-emitting component；

The transparent conductive film is etched with isolation circuit；The transparent conductive film is divided into multiple lead by the isolation circuit Electric block；

The light-emitting component is equipped with current input terminal, current output terminal, signal input part, signal output end；

Light-emitting component arrangement form multiple lines and multiple rows matrix in the transparent conductive film；Light-emitting component described in each row Current input terminal is connected in series with by conducting wire and conductive area simultaneously with current output terminal；Respectively arrange the corresponding light-emitting component Signal input part is connected in series with by conducting wire and conductive area simultaneously with signal output end；The full line that each row is connected in series with shines first Part is connected in parallel in the both ends of power supply by conductive area.

Further, the current input terminal and current output terminal for respectively arranging the corresponding light-emitting component are parallel relationship.

Further, when while being connected in series with using conducting wire and conductive area, the conducting wire is affixed in the conductive area； It is mutually on-insulated between the conducting wire and the conductive area.

Further, the conductive area of the current output terminal connection of the light-emitting component corresponding with each row is connect with ground wire.

Further, the conductive area being connect with the current output terminal of each row light-emitting component respectively with independent ground wire Connection.

Further, the conducting wire is formed by silver-colored paddle spraying process or silk screen printing process in the conductive area.

Energy-saving circuit system provided by the utility model, by connection series circuit or series signals circuit it is transparent Conducting wire is set on conductive film, and conducting wire and transparent conductive film are that either series signals circuit is conductive or transmission is believed for series circuit jointly Number, play energy-efficient effect.Using the intelligent building glass of energy-saving circuit system provided by the utility model, when work, conducting wire Signal is either transmitted with transparent conductive film corporate conductive than individually using conducting wire or individually using the effect of transparent conductive film more It is good, while good energy-saving effect can be reached.

The utility model embodiment also provides a kind of electrically conducting transparent glass for the as above any one energy-saving circuit system Glass, including the first transparent substrate and transparent conductive film；

The transparent conductive film is located on first transparent substrate；Isolation circuit is etched in the transparent conductive film； The transparent conductive film is divided into current conduction block and signal conductive area by the isolation circuit；

The current conduction block is equipped with electric current transfer wire；The electric current transfer wire and current conduction block are used for Light-emitting component described in each row is connected in series with jointly；

The signal conductive area is equipped with signal transmission wire；The signal transmission wire and signal conductive area are used for Light-emitting component described in each row is connected in series with jointly；

The both sides of the transparent conducting glass are connect with power supply.

Further, the current conduction block and the laterally spaced setting of signal conductive area；The signal is led Multiple isolation circuits are vertically arranged on electric block, the signal conductive area is divided by multiple isolation circuits Polylith signal conduction block of cells；The electric current transfer wire is laterally arranged along the current conduction block；The signal is conductive Block is longitudinally disposed along the signal conduction block of cells.

The utility model also provides a kind of intelligent building glass, including light-emitting component, transparent conducting glass as described above； It further include the second transparent substrate；

Light-emitting component arrangement form matrix above the transparent conducting glass；The electric current of light-emitting component described in each row Input terminal is connected in series with by electric current transfer wire and current conduction block simultaneously with current output terminal；Respectively arrange the corresponding hair The signal input part of optical element is connected in series with by signal transmission wire and signal conductive area simultaneously with signal output end；Each row The full line light-emitting component being connected in series with is connected in parallel in the both ends of power supply by current conduction block；

Second transparent substrate is covered with above the light-emitting element matrix；

Second transparent substrate is bonded with the transparent conducting glass by doubling.

Further, the light-emitting component is the RGB full-color light-emitting units with driving circuit IC.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is Some embodiments of the utility model, for those of ordinary skill in the art, in the premise of not making the creative labor property Under, other drawings may also be obtained based on these drawings.

Fig. 1 is the energy-saving circuit system schematic that the utility model embodiment provides；

Fig. 2 is conductive area schematic diagram on conducting glass film；

Fig. 3 is conducting wire block and controller line preferred embodiment schematic diagram on conducting glass film；

Fig. 4 is arrangement of conductors schematic diagram on conducting glass film；

Fig. 5 is the intelligent building glass schematic diagram that the utility model embodiment provides.

Reference numeral：

10 first transparent substrate, 20 transparent conductive film, 21 current conduction block

22 31 electric current transfer wire of signal conduction block of cells, 32 signal transmission wire

60 second transparent substrate of circuit is isolated in 40 light-emitting components 50

70 doublings

Specific implementation mode

It is new below in conjunction with this practicality to keep the purpose, technical scheme and advantage of the utility model embodiment clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model Example, the every other embodiment that those of ordinary skill in the art are obtained without creative efforts belong to The range of the utility model protection.

In the description of the present invention, it should be noted that term "center", " longitudinal direction ", " transverse direction ", "upper", "lower", The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of describing the present invention and simplifying the description, rather than indicate Or imply that signified device or element must have a particular orientation, with specific azimuth configuration and operation, therefore cannot understand For limitations of the present invention.In addition, term " first ", " second " are used for description purposes only, and should not be understood as instruction or Imply relative importance.

Fig. 1 is the energy-saving circuit system schematic that the utility model embodiment provides, as shown in Figure 1：The utility model is real It applies example and a kind of energy-saving circuit system, including transparent conductive film, light-emitting component 40 is provided；The transparent conductive film is etched with shielding wire Road 50；The transparent conductive film is divided into multiple conductive areas by the isolation circuit 50；The light-emitting component 40 is equipped with electricity Flow input terminal, current output terminal, signal input part, signal output end；The light-emitting component 40 is arranged in the transparent conductive film Row form multiple lines and multiple rows matrix；The current input terminal of light-emitting component 40 described in each row by conducting wire and is led simultaneously with current output terminal Electric block is connected in series with；Respectively arrange the signal input part of the corresponding light-emitting component 40 and signal output end simultaneously by conducting wire and Conductive area is connected in series with；The full line light-emitting component 40 that each row is connected in series with is connected in parallel in the two of power supply by conductive area End.

When it is implemented, light-emitting component 40 is set in transparent conductive film, i × j matrixes are formed；Wherein, i and j is certainly So number, and i >=2, j >=2；Light-emitting component 40 includes current input terminal, current output terminal, signal input part and signal output end, The current input terminal of every a line light-emitting component 40 in matrix, light-emitting component 40 by conducting wire and is led simultaneously with current output terminal Electric block is connected in series with；Each row luminescence component in matrix, the signal input part and signal output end of light-emitting component 40 are simultaneously It is connected in series with by conducting wire and conductive area；The full line light-emitting component 40 being connected in series with per a line by the conductive areas of both sides simultaneously Connection is connected to the both ends of power supply.On series circuit, due to having resistance, the resistance of transparent conductive film general in transparent conductive film It is indicated with resistance per square or surface resistance, which is 10-600 Ω, transparent to lead in 40 course of work of light-emitting component Electrolemma can generate heat, and can consume a large amount of energy on nesa coating；Therefore plain conductor is set on series circuit, metal is led The resistance of line is small, and when electric current or control signal are by transparent conductive film and plain conductor, plain conductor is same with transparent conductive film Shi Gongtong is that either series signals circuit is conductive or transmission signal, plain conductor are that transparent conductive film shares one for series circuit Divide transmitted electric current or control signal, the conductive capability for improving transparent conductive film can be played, while new using this practicality The intelligent building glass work for the energy-saving circuit system that type embodiment provides is in use, have good energy-saving effect.Preferably, Silk-screened conductive silver paste on nesa coating, conductive silver paste have minimum resistance, can substantially reduce transparent conductive film and be disappeared The energy of consumption.

Energy-saving circuit system provided by the utility model, by connection series circuit or series signals circuit it is transparent Conducting wire is set on conductive film, and conducting wire and transparent conductive film are that either series signals circuit is conductive or transmission is believed for series circuit jointly Number, play energy-efficient effect.Using the intelligent building glass of energy-saving circuit system provided by the utility model, when work, conducting wire Signal is either transmitted with transparent conductive film corporate conductive than individually using conducting wire or individually using the effect of transparent conductive film more It is good, while good energy-saving effect can be reached.

Preferably, the current input terminal and current output terminal for respectively arranging the corresponding light-emitting component 40 are parallel relationship.

When it is implemented, the current input terminal of the luminescence component in same row is used with current output terminal is connected in parallel pass It is that the transparent conductive film between luminescence components on adjacent two row is complete transparent conductive film, in the complete electrically conducting transparent There is no etching isolation circuits 50 on film.

Preferably, when while being connected in series with using conducting wire and conductive area, the conducting wire is affixed in the conductive area；Institute It states mutually on-insulated between conducting wire and the conductive area.

When it is implemented, in the matrix that light-emitting component 40 is formed, conducting wire and conduction region are used with a line light-emitting component 40 Block is connected in series with when carrying out electric current transmission or agro-industrial light-emitting component 40 is connected in series with using conducting wire with conductive area in same row When carrying out signal transmission, conducting wire is mutually on-insulated between conducting wire and conductive area directly as in conductive area.Preferably, conducting wire It is directly arranged at by spraying process or silk screen printing process for silver paste and is formed in conductive area.

Preferably, the conductive area of the current output terminal connection of the light-emitting component corresponding with each row 40 is connect with ground wire.

When it is implemented, connect with ground wire in the conductive area being connect with the current output terminal of each row light-emitting component 40, For data input pin (ends DI for controlling IC) forming circuit of light-emitting component 40.Preferably, described luminous with each row The conductive area of the current output terminal connection of element 40 is connect with independent ground wire respectively.

Preferably, single line regulator control system or multi-line regulator control system can be used in energy-saving circuit system.Single line regulates and controls The signal input part of light-emitting component 40 in system only contains the connecting pins DI with signal output end；Hair in multi-line regulator control system The signal input part of optical element 40 at least contains the connecting pins DI and CLK (time control) connecting pin with signal output end.Using list When circuit regulator control system or multi-line regulator control system, in the matrix of light-emitting component 40, the DI in each row in each light-emitting component 40 The input terminal of connecting pin and/or the connecting pins CLK is used with output end and is connected in series with, while same between two neighboring light-emitting component 40 When be connected in series with by conducting wire and conductive area.

The utility model embodiment also provides a kind of electrically conducting transparent glass for the as above arbitrary energy-saving circuit system Glass, including the first transparent substrate 10 and transparent conductive film 20；

The transparent conductive film 20 is located on first transparent substrate 10；Isolation is etched in the transparent conductive film 20 Circuit 50；The transparent conductive film 20 is divided into current conduction block 21 and signal conductive area by the isolation circuit 50；

The current conduction block 21 is equipped with electric current transfer wire 31；The electric current transfer wire 31 and current conduction area Light-emitting component 40 described in each row for being connected in series with by block 21 jointly；

The signal conductive area is equipped with signal transmission wire 32；The signal transmission wire 32 and signal conductive area For light-emitting component 40 described in each row to be connected in series with jointly；

The both sides of the transparent conducting glass are connect with power supply.

Preferably, the current conduction block 21 and the laterally spaced setting of signal conductive area；The signal is led It is vertically arranged with multiple isolation circuits 50 on electric block, multiple isolation circuits 50 are by the signal conductive area It is divided into polylith signal conduction block of cells 22；The electric current transfer wire 31 is laterally arranged along the current conduction block 21； The signal conductive area is longitudinally disposed along the signal conduction block of cells 22.

When it is implemented, as shown in Figures 2 and 3：Transparent conductive film 20 is located on the first transparent substrate 10, electrically conducting transparent Isolation circuit 50 is etched on film 20；Transparent conductive film 20 is divided into current conduction block 21 and signal conductive by isolation circuit 50 Block；As shown in Figure 2：From left to right, for the light-emitting component 40 using single line regulator control system, current conduction block 21 and letter The setting of number conductive area interval；(such as the light-emitting component 40 using multi-line regulator control system：Connected using the connecting pins DI and CLK Connect the light-emitting component 40 at end), then from left to right, set between two current conduction blocks 21 there are two signal conductive area.It is transparent On conductive film, from the bottom to top, longitudinally disposed multiple isolation circuits 50 in signal conductive area, multiple isolation circuits 50 are by signal Conductive area is divided into polylith signal conduction block of cells 22.It is equipped in signal conduction block of cells 22 and current conduction block 21 Conducting wire so that can be fast by conducting wire and signal conduction cell with the light-emitting component 40 in a line either same row or electric current is led Electric block 21 is connected in series with simultaneously.

The utility model embodiment also provides a kind of intelligent building glass, as shown in figure 4, include light-emitting component 40, it is above-mentioned Transparent conducting glass；It further include the second transparent substrate 60；

The arrangement form matrix above the transparent conducting glass of the light-emitting component 40；Light-emitting component 40 described in each row Current input terminal is connected in series with by electric current transfer wire 31 and current conduction block 21 simultaneously with current output terminal；Each row correspond to Signal input part and the signal output end of the light-emitting component 40 pass through signal transmission wire 32 and signal conductive area simultaneously It is connected in series with；The full line light-emitting component 40 that each row is connected in series with is connected in parallel in the both ends of power supply by current conduction block 21；

Second transparent substrate 60 is covered with above 40 matrix of the light-emitting component；

Second transparent substrate 60 is bonded with the transparent conducting glass by doubling 70.

Preferably, the light-emitting component 40 is the RGB full-color light-emitting units with driving circuit IC.

Although more herein used such as transparent substrate, transparent conductive film, current conduction block, signal conduction is small Block, electric current transfer wire, signal transmission wire, light-emitting component are isolated circuit, the terms such as doubling, but are not precluded and use it The possibility of its term.The use of these terms is merely for the convenience of describing and explaining the nature of the invention；It To be construed to any one of the additional limitations all be contrary to the spirit of the present invention.

Finally it should be noted that：The above various embodiments is only to illustrate the technical solution of the utility model, rather than limits it System；Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should Understand：It still can be with technical scheme described in the above embodiments is modified, either to which part or whole Technical characteristic carries out equivalent replacement；And these modifications or replacements, this practicality that it does not separate the essence of the corresponding technical solution are new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of energy-saving circuit system, it is characterised in that：Including transparent conductive film, light-emitting component；

The transparent conductive film is etched with isolation circuit (50)；The transparent conductive film is divided into more by the isolation circuit (50) A conductive area；

The light-emitting component is equipped with current input terminal, current output terminal, signal input part, signal output end；

Light-emitting component arrangement form multiple lines and multiple rows matrix in the transparent conductive film；The electric current of light-emitting component described in each row Input terminal is connected in series with by conducting wire and conductive area simultaneously with current output terminal；Respectively arrange the signal of the corresponding light-emitting component Input terminal is connected in series with by conducting wire and conductive area simultaneously with signal output end；The full line light-emitting component that each row is connected in series with is logical Cross the both ends that conductive area is connected in parallel in power supply.

2. energy-saving circuit system according to claim 1, it is characterised in that：Respectively arrange the electric current of the corresponding light-emitting component Input terminal and current output terminal are parallel relationship.

3. energy-saving circuit system according to claim 1, it is characterised in that：Connected simultaneously using conducting wire and conductive area series connection When connecing, the conducting wire is affixed in the conductive area；It is mutually on-insulated between the conducting wire and the conductive area.

4. energy-saving circuit system according to claim 3, it is characterised in that：The conducting wire by silver-colored paddle by spraying process or Person's silk screen printing process is set in the conductive area and forms.

5. energy-saving circuit system according to claim 1, it is characterised in that：The electric current of the light-emitting component corresponding with each row The conductive area of output end connection is connect with ground wire.

6. energy-saving circuit system according to claim 5, it is characterised in that：It is exported with the electric current of each row light-emitting component The conductive area of end connection is connect with independent ground wire respectively.

7. a kind of transparent conducting glass for claim 1~6 any one of them energy-saving circuit system, it is characterised in that： Including the first transparent substrate (10) and transparent conductive film (20)；

The transparent conductive film (20) is located on first transparent substrate (10)；Be etched on the transparent conductive film (20) every Offline road (50)；The transparent conductive film (20) is divided into current conduction block (21) and signal to lead by the isolation circuit (50) Electric block；

The current conduction block (21) is equipped with electric current transfer wire (31)；The electric current transfer wire (31) and current conduction Light-emitting component (40) described in each row for being connected in series with by block (21) jointly；

The signal conductive area is equipped with signal transmission wire (32)；The signal transmission wire (32) and signal conductive area For light-emitting component (40) described in each row to be connected in series with jointly；

The both sides of the transparent conducting glass are connect with power supply.

8. transparent conducting glass according to claim 7, it is characterised in that：The current conduction block (21) and the letter Number laterally spaced setting of conductive area；Multiple isolation circuits (50) are vertically arranged in the signal conductive area, The signal conductive area is divided into polylith signal conduction block of cells (22) by multiple isolation circuits (50)；The electric current passes Transporting line (31) is laterally arranged along the current conduction block (21)；The signal conductive area is along the signal conduction cell Block (22) is longitudinally disposed.

9. a kind of intelligent building glass, it is characterised in that：Including light-emitting component, the electrically conducting transparent glass described in claim 7 or 8 Glass；Further include the second transparent substrate (60)；

Light-emitting component arrangement form matrix above the transparent conducting glass；The electric current of light-emitting component described in each row inputs End is connected in series with by electric current transfer wire and current conduction block simultaneously with current output terminal；Respectively arrange the corresponding luminous member The signal input part of part is connected in series with by signal transmission wire and signal conductive area simultaneously with signal output end；Each row series connection The full line light-emitting component of connection is connected in parallel in the both ends of power supply by current conduction block；

Second transparent substrate (60) is covered with above the light-emitting element matrix；

Second transparent substrate (60) is bonded with the transparent conducting glass by doubling (70).

10. intelligent building glass according to claim 9, it is characterised in that：The light-emitting component is with driving circuit The RGB full-color light-emitting units of IC.