CN208459743U - For controlling the device and electrochromic system of electrochomeric glass - Google Patents

Abstract

The utility model embodiment provides a kind of for controlling the device and electrochromic system of electrochomeric glass, belongs to electric-control color-changeable glass field.The device includes: power storage module；Electric energy conversion module, for charging for the power storage module；Adjustment module connects the power storage module and the electrochomeric glass, the voltage for being supplied to the electrochomeric glass for adjusting the power storage module, to control the electrochomeric glass.The electrochromic system includes above-mentioned device.It is thereby achieved that can control electrochomeric glass without connecting external driving voltage and external controller, reduces the installation of cable, reduce installation cost and complexity.

Description

For controlling the device and electrochromic system of electrochomeric glass

Technical field

The utility model relates to electric-control color-changeable glass fields, more particularly to a kind of for controlling the dress of electrochomeric glass It sets and electrochromic system.

Background technique

Electrochomeric glass refers to that under DC Electric Field, anode and cathode is electric in the electrochomeric glass with seven-layer structure Mutagens chromatograph selectively absorbs by the absorption and transmission of adjusting light or reflects extraneous heat radiation, and prevent internal heat To external diffusion, the purpose of improving natural lighting degree, energy conservation, peep-proof, anti-glare is played.

In the electrochromic device course of work, device is realized using the electrode inside external voltage driving electrochromism Discoloration.The driving voltage of electrochromic device is extremely low, usually between -3V~3V, needs to connect converter and converts voltages into Voltage value needed for electrochromism.

Existing electric driven color-changing part structure, including seven-layer structure, the first electrochromic layer and second including being set to core Electrolyte layer between electrochromic layer is equipped with the first transparency conducting layer between the first electrochromic layer and first base material layer, The second transparency conducting layer is equipped between second electrochromic layer and the second substrate layer, first base material layer is opposite with the second substrate layer to be set It sets, the first transparency conducting layer is oppositely arranged with the second transparency conducting layer, and the first transparency conducting layer and the second transparency conducting layer are external Controller, by providing DC power supply, controllable first electrochromic layer and the second electrochromic layer generate the variation of color, Variation includes two phase changes of transparent state and coloured state, two different colors of variation, the display of different digital and distinct symbols Display.

When installing electrochomeric glass, by structural system/supporter of the window frame systems of building and building come Cable of the installation for power and control is difficult and expensive.

Utility model content

The purpose of the utility model embodiment is to provide a kind of device for controlling electrochomeric glass and electrochromism System can realize the cost and complexity for reducing installation electrochomeric glass.

To achieve the goals above, the one aspect of the utility model provides a kind of for controlling the dress of electrochomeric glass It sets, which includes: power storage module；Electric energy conversion module, for charging for the power storage module；Adjustment module, Connect the power storage module and the electrochomeric glass, for adjust the power storage module be supplied to it is described electroluminescent The voltage of photo chromic glass, to control the electrochomeric glass.

Optionally, the power storage module is battery.

Optionally, the electric energy conversion module is solar energy photovoltaic glass structure.

Optionally, the adjustment module includes: adjustable resistance；Parameter acquisition module, for getting parms；Controller, with The adjustable resistance is connected with the parameter acquisition module, for the resistance value of the adjustable resistance according to the parameter regulation, with Adjust the voltage that the power storage module is supplied to the electrochomeric glass.

Optionally, the parameter acquisition module include it is following at least one: light intensity detection module, pressure detecting module, temperature Spend detection module and wireless communication module.

Optionally, the controller is arranged on inside door window frame.

Optionally, the adjustment module be it is following at least one: photo resistance, force sensing resistance and thermistor.

In addition, the another aspect of the utility model provides a kind of electrochromic system, which includes: above-mentioned device； And electrochomeric glass, it is connect with the power storage module and the adjustment module.

Through the above technical solutions, can be realized without connecting external driving voltage and external controller to electrochromism glass The control of glass reduces the cable for connecting external driving power and external controller when installing electrochomeric glass Installation, reduces installation cost and complexity.In addition, electric energy conversion module is used to provide power source for electrochomeric glass, The running energy consumption of the building of installation electrochomeric glass and the operating power consumption of electrochomeric glass can be further decreased, is more accorded with Close carbon-free energy-efficient demand.

The other feature and advantage of the utility model embodiment will give in the following detailed description section specifically It is bright.

Detailed description of the invention

Attached drawing is to further understand for providing to the utility model embodiment, and constitute part of specification, It is used to explain the utility model embodiment together with following specific embodiment, but does not constitute to the utility model embodiment Limitation.In the accompanying drawings:

Fig. 1 is the structural block diagram for the device for controlling electrochomeric glass that an embodiment of the present invention provides；

Fig. 2 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides；

Fig. 3 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides；

Fig. 4 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides；

Fig. 5 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides；

Fig. 6 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides；

Fig. 7 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides； And

Fig. 8 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides.

Description of symbols

1 electric energy conversion module, 2 power storage module

3 adjustment module, 4 adjustable resistance

5 controller, 6 parameter acquisition module

7 solar energy photovoltaic glass structure, 8 battery

9 electrochomeric glass structure, 10 light intensity detection module

11 pressure detecting module, 12 temperature detecting module

13 WIFI wireless communication module, 14 photo resistance

Specific embodiment

It is described in detail below in conjunction with specific embodiment of the attached drawing to the utility model embodiment.It should be understood that It is that specific embodiment described herein is merely to illustrate and explains the utility model embodiment is not limited to this reality Use new embodiment.

The one aspect of the utility model embodiment provides a kind of for controlling the device of electrochomeric glass.

Fig. 1 is the structural block diagram for the device for controlling electrochomeric glass that an embodiment of the present invention provides.Such as Shown in Fig. 1, which includes electric energy conversion module 1, power storage module 2 and adjustment module 3.Electric energy conversion module 1 can be with The energy of other forms is converted into electric energy, and is charged for power storage module 2.For example, electric energy conversion module 1 can be by wind Energy, solar energy etc. are converted to electric energy.Optionally, electric energy conversion module 1 can be solar energy photovoltaic glass structure.Power storage mould Block 2 is that electrochomeric glass 9 provides voltage.Adjustment module 3 is connect with power storage module 2 and electrochomeric glass 9, and electric energy is deposited It is formed into a loop between storage module 2, adjustment module 3 and electrochomeric glass, the adjustable power storage module 2 of adjustment module 3 mentions The voltage of supply electrochomeric glass 9 makes it that different states be presented, or different to control electrochomeric glass 9 Mode for example, electrochomeric glass 9 is made to be in Night, light transmission mode or shading pattern etc., or makes electroluminescent change Transparent state or coloured state etc. is presented in color glass 9, to meet the needs of users.For example, adjustment module 3 changes it in the loop Resistance, the voltage that power storage module 2 is supplied to electrochomeric glass 9 change, state that electrochomeric glass is presented or its Present mode changes.Optionally, power storage module 2 is battery.

Electric energy conversion module is power storage module charging, and power storage module provides voltage for electrochomeric glass, is adjusted It is the voltage that electrochomeric glass provides that section module, which adjusts power storage module, to control electrochomeric glass.In this way, without connecting It connects external driving voltage and control to electrochomeric glass can be realized in external controller, when installing electrochomeric glass, The installation for reducing the cable for connecting external driving power and external controller reduces installation cost and complexity.This Outside, it uses electric energy conversion module to provide power source for electrochomeric glass, installation electrochomeric glass can be further decreased The running energy consumption of building and the operating power consumption of electrochomeric glass are more in line with carbon-free energy-efficient demand.

Fig. 2 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides. As shown in Fig. 2, the device includes that electric energy conversion module 1, power storage module 2, adjustable resistance 4, controller 5 and parameter obtain mould Block 6.Wherein, adjustable resistance 4, controller 5 and parameter acquisition module 6 are adjustment module 3 described in the utility model embodiment A kind of citing.Optionally, controller 5 may be disposed inside door window frame.Power storage module 2, adjustable resistance 4 with it is electroluminescent It is formed into a loop between photo chromic glass 9；Parameter acquisition module 6 is for getting parms；Controller 5 and adjustable resistance 4 and parameter obtain Module 6 connects, and according to the resistance value of parameter regulation adjustable resistance 4, then power storage module 2 is supplied to the electricity of electrochomeric glass 9 Pressure changes, and electrochomeric glass 9 shows different states or in different modes.Wherein, parameter can be electrochromism The pressure, and/or come from other that the light intensity, and/or temperature of 9 local environment of glass, and/or 9 surface of electrochomeric glass are born The order parameter of equipment.In addition, adjustable resistance 4 and the relationship of power storage module 2 can design according to the actual situation, such as can It adjusts resistance 4 that can be included in the inside of power storage module 2, can also be also an independent resistance other than power storage module 2.

According to the resistance value of parameter regulation adjustable resistance 4, it can be and adjusted according to the relationship of parameter and preset parameter range Section, preset parameter range can be related with the environment rule etc. in user's use habit, the actual demand of user, user location. The different conditions or present different mode that electrochomeric glass 9 can be presented correspond to different preset parameter ranges, such as The mode that electrochomeric glass 9 can be at includes Night, shading pattern and light transmission mode, then preset parameter range packet Include night preset parameter range, shading preset parameter range and light transmission preset parameter range.The parameter that will acquire respectively and night Between preset parameter range, shading preset parameter range and light transmission preset parameter range be compared, which parameter preset met Range, the resistance value by adjusting adjustable resistance 4 make electrochomeric glass 9 be in the corresponding mode of the preset parameter range.Tool Body, when adjusting the resistance value of adjustable resistance 4, the different mode that can be setting electrochomeric glass 9, which corresponds to adjustable resistance 4, to be connected Connect different resistance ranges or different resistance values in circuit.It include night mould with the mode that electrochomeric glass 9 can be at For formula, shading pattern and light transmission mode, Night corresponds to night resistance predetermined voltage range, and shading pattern is corresponding to be hidden Light resistance predetermined voltage range, light transmission mode correspond to shading predetermined voltage range, need when being determined according to parameter so that electrochromism When glass 9 is in Night, the Standard resistance range that the corresponding adjustable resistance 4 of Night can be at is determined, adjust adjustable resistance 4 Resistance value in circuit is so that its resistance value is in night resistance value predetermined voltage range, and then changes and be applied to electrochomeric glass 9 voltage, so that electrochomeric glass 9 is in Night.

In addition, the order parameter transmitted according to other equipment can also be according to the resistance value of parameter regulation adjustable resistance 4, The order parameter indicates that the numerical value for needing the voltage provided for electrochomeric glass structure or expectation electrochomeric glass are presented State or the mode or adjustable resistance 4 that are in be attached to Standard resistance range or resistance value in circuit, and then referred to according to this The resistance value of parameter regulation adjustable resistance 4 is enabled, to adjust the voltage for being supplied to electrochomeric glass.Wherein the other equipment can be The terminals such as mobile phone, computer or ipad.For example, be arranged on mobile phone in advance adjustable resistance 4 present in the loop different resistance value or It is corresponding with the different mode of electrochomeric glass 9 that person is in different Standard resistance ranges.When user it is expected at electrochomeric glass 9 When shading pattern, according to corresponding relationship, when determining that electrochomeric glass 9 is in shading pattern, the resistance value of adjustable resistance 4 will It adjusts the resistance value of adjustable resistance 4 and is transmitted to parameter acquisition 6 for the order parameter of the resistance value determined, parameter acquisition module 6 will It is transmitted to control 5, and controller 5 according to the order parameter adjusts the resistance value of adjustable resistance 4 so that it is the resistance value determined, So that electrochomeric glass 9 is in shading pattern.Further, it is also possible to be that user selectes expectation electrochromism in other equipment The state that glass 9 is presented or the mode being in, the other equipment will be needed according to the selected of user for electrochomeric glass The numerical value or the expectation electrochomeric glass state presented of the voltage that structure provides or the mode being in are transmitted to controller 5, Controller 5 determines that adjustable resistance 4 is attached to the resistance value in circuit according to its received content, and adjusts adjustable resistance 4 Resistance value be the resistance value determined, realize so that the desired state of 9 presentation user of electrochomeric glass or in user it is expected Mode.

In addition, parameter can be single parameter, for example, light intensity, temperature, pressure or order parameter, or he Any combination, in this regard, not limiting.

Optionally, parameter acquisition module 6 include it is following at least one: light intensity detection module, pressure detecting module, temperature inspection Survey module and wireless communication module.Wherein, light intensity detection module is used to detect the light intensity of electrochomeric glass current environment； Pressure detecting module is used to detect the pressure of electrochomeric glass surface receiving；Temperature detecting module is for detecting electrochromism glass The temperature of glass local environment；Wireless communication module for connecting controller and other equipment, for example, the other equipment be mobile phone, The terminals such as computer or ipad, user obtain the order parameter of other equipment transmission.Optionally, wireless communication module can be WIFI Wireless communication module or Bluetooth wireless communication module etc..

The structural block diagram for the device for controlling electrochomeric glass that another embodiment of Fig. 3 the utility model provides.Such as Shown in Fig. 3, in this embodiment, the device include battery 8, adjustable resistance 4, controller 5, solar energy photovoltaic glass structure 7, And light intensity detection module 10, wherein adjustable resistance 4 is arranged on inside battery 8.External environment difference light intensity is different, such as Cloudy day, fine day, daytime, evening, different stage light intensity is different, and same stage light intensity may also be different, such as the difference on daytime Time point light intensity is different, these situations are it is required that electrochomeric glass 9 is in different modes, or different shapes is presented State, to meet the needs of users.For example, needing to control electrochomeric glass 9 when external environment is in night and being in night mould Formula；When extraneous light intensity is stronger, needs to control electrochomeric glass 9 and be in shading pattern；When extraneous light intensity is darker, such as cloudy day Under mode, needs to control electrochomeric glass 9 and be in light transmission mode.In this embodiment, pass through the light intensity of detection external environment Electrochromism mode is controlled, so that electrochomeric glass is met the needs of users.Solar energy photovoltaic glass structure 7 and electric power storage Pond 8 is connected directly, and solar energy photovoltaic glass structure 7 converts solar energy into electric energy and by power storage inside battery 8.Control 5 one end of device is connect with battery 8, and controller 5 adjusts the resistance value of adjustable resistance 4, so that battery 8 is supplied to electrochomeric glass The voltage of structure 9 changes.Light intensity detection module 10 detects the light intensity of 9 local environment of electrochomeric glass, and the light that will test It is transmitted to controller 5 by force, its received light intensity is compared by controller 5 with default range of light intensity, according to light intensity and default light The relationship of strong range adjusts the resistance value of adjustable resistance 4, so that the voltage that battery 8 is applied to electrochomeric glass 9 changes, makes It obtains electrochomeric glass and shows different states, or in different modes, such as show different colours variation.

Fig. 4 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides. The difference is that, device shown in Fig. 4 gets parms without using light intensity detection module with device shown in Fig. 3, uses pressure Power detection module 11 gets parms, the pressure that parameter acquired in pressure detecting module 11 is born by electrochomeric glass surface Power.Wherein pressure detecting module 11 is arranged on electrochomeric glass 9.When user hand touches electrochomeric glass 9, one is generated Fixed pressure, the pressure transmission that pressure detecting module 11 detects generated pressure, and will test to controller 5, controller 5 The resistance value that adjustable resistance 4 is adjusted according to its received pressure and the relationship of pre-set pressure range, is applied to electricity to adjust battery 8 The voltage for causing photo chromic glass 9, so that different states is presented in the difference for the voltage that electrochomeric glass 9 is born according to its surface Or in different modes, such as show color change.

Fig. 5 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides. The difference is that, device shown in fig. 5 gets parms without using light intensity detection module with device shown in Fig. 3, uses temperature Degree detection module 12 gets parms, and temperature detecting module 12 obtains the temperature that parameter is electrochomeric glass local environment.In reality In the life of border, user may expect that, in the temperature difference of external environment, different state or place is presented in electrochomeric glass 9 In different modes, such as show color change.The temperature that temperature detecting module 12 will test is transmitted to controller 5, control Its received temperature is compared by device 5 processed with preset temperature range, can according to the adjusting of the relationship of temperature and preset temperature range The resistance value for adjusting resistance 4, to adjust the voltage that battery 8 is applied to electrochomeric glass 9, so that 9 basis of electrochomeric glass The difference of the temperature of its local environment is presented different states or in different mode, such as shows color change.

Fig. 6 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides. The difference is that, device shown in fig. 6 gets parms without using light intensity detection module with device shown in Fig. 3, uses WIFI wireless communication module 13 gets parms.Wherein, in this embodiment, which is order parameter, which indicates The numerical value of the voltage that provides for electrochomeric glass structure is provided or state that expectation electrochomeric glass is presented or is in Mode or adjustable resistance 4 are attached to Standard resistance range or resistance value in circuit.Controller can according to order parameter adjusting The resistance value of resistance 4 is adjusted, to adjust the voltage that battery 8 is applied to electrochomeric glass 9, so that electrochomeric glass 9 is presented Different state or in different modes, such as show color change.

Fig. 7 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides. The difference is that, device shown in Fig. 7 further includes pressure in addition to including light intensity detection module 10 with device shown in Fig. 3 Power detection module 11, temperature detecting module 12, WIFI wireless communication module 13.In this embodiment, controller 5 can basis respectively The parameter regulation that light intensity detection module 10, pressure detecting module 11, temperature detecting module 12, WIFI wireless communication module obtain can The resistance value for adjusting resistance 4, so that electrochomeric glass 9 is presented different states or in different modes.

Optionally, in the embodiments of the present invention, adjustment module can for it is following at least one: photo resistance, power are quick Resistance and thermistor.Photo resistance can change the resistance of itself according to the light intensity of external environment, and force sensing resistance can be according to outer The size of reinforcing changes the resistance value of itself, and thermistor can change the resistance value of itself according to ambient temperature.In this way, adjustable electricity Energy memory module is applied to the voltage of electrochomeric glass, so that electrochomeric glass is presented different states or in not Same mode.

Fig. 8 is the structural block diagram for the device for controlling electrochomeric glass that another embodiment of the utility model provides. The difference is that, use photo resistance 14 as adjustment module in this embodiment with device shown in FIG. 1.Photo resistance 14, it is formed into a loop between power storage module 2 and electrochomeric glass 9, when the resistance value of photo resistance 14 is because of external environment Light intensity and when changing, power storage module 2 is that the voltage that electrochomeric glass 9 provides changes correspondingly, electrochomeric glass 9 Show different states or in different modes.In addition, photo resistance 14 can be replaced in the utility model embodiment It is changed to force sensing resistance or thermistor, can also be replaced by any combination of photo resistance, force sensing resistance and thermistor.

In addition, the another aspect of the utility model embodiment provides a kind of electrochromic system, which includes above-mentioned reality Device described in example and electrochomeric glass are applied, wherein electrochomeric glass and power storage module and adjustment module connect It connects.

In conclusion electric energy conversion module is power storage module charging, power storage module mentions for electrochomeric glass Voltage supplied, it is the voltage that electrochomeric glass provides that adjustment module, which adjusts power storage module, to control electrochomeric glass.Such as This is installing electroluminescent change without connecting external driving voltage and control to electrochomeric glass can be realized in external controller When color glass, reduce the installation of the cable for connecting external driving power and external controller, reduce installation cost and Complexity.In particular in the stylish occasion of building structure, the benefit for reducing installation cost and complexity is more obvious. In addition, electric energy conversion module is used to provide power source for electrochomeric glass, installation electrochomeric glass can be further decreased Building running energy consumption and electrochomeric glass operating power consumption, be more in line with carbon-free energy-efficient demand.In addition, photovoltaic and Electrochromic combination provides good synergistic effect to usually coloring only needed for daytime, and with bigger solar energy Preferably coloring is provided.In addition, introducing intensity control, temperature control, pressure control, wireless communication, electricity can be further improved Cause the convenience of photo chromic glass.

The optional embodiment of the utility model embodiment, still, the utility model is described in detail in conjunction with attached drawing above Embodiment be not limited to the above embodiment in detail can in the range of the technology design of the utility model embodiment A variety of simple variants are carried out with the technical solution to the utility model embodiment, these simple variants belong to the utility model reality Apply the protection scope of example.

It is further to note that specific technical features described in the above specific embodiments, in not lance In the case where shield, it can be combined in any appropriate way.In order to avoid unnecessary repetition, the utility model is implemented No further explanation will be given to various combinations of possible ways for example.

In addition, any combination can also be carried out between a variety of different embodiments of the utility model embodiment, as long as It equally should be considered as the utility model embodiment disclosure of that without prejudice to the thought of the utility model embodiment.

Claims (8)

1. a kind of for controlling the device of electrochomeric glass, which is characterized in that the device includes:

Power storage module；

Electric energy conversion module, for charging for the power storage module；

Adjustment module connects the power storage module and the electrochomeric glass, for adjusting the power storage module It is supplied to the voltage of the electrochomeric glass, to control the electrochomeric glass.

2. the apparatus according to claim 1, which is characterized in that the power storage module is battery.

3. the apparatus according to claim 1, which is characterized in that the electric energy conversion module is solar energy photovoltaic glass knot Structure.

4. device according to any one of claim 1-3, which is characterized in that the adjustment module includes:

Adjustable resistance；

Parameter acquisition module, for getting parms；

Controller is connect with the adjustable resistance and the parameter acquisition module, for adjustable according to the parameter regulation The resistance value of resistance, to adjust the voltage that the power storage module is supplied to the electrochomeric glass.

5. device according to claim 4, which is characterized in that the parameter acquisition module include it is following at least one: light Strong detection module, pressure detecting module, temperature detecting module and wireless communication module.

6. device according to claim 4, which is characterized in that the controller is arranged on inside door window frame.

7. device according to any one of claim 1-3, which is characterized in that the adjustment module is following at least one Person: photo resistance, force sensing resistance and thermistor.

8. a kind of electrochromic system, which is characterized in that the system includes:

Device of any of claims 1-7；And

Electrochomeric glass is connect with the power storage module and the adjustment module.