CN116482908A - Electrochromic device and mounting method thereof - Google Patents

Abstract

The invention relates to an electrochromic device and an installation method thereof, wherein the electrochromic device comprises a main body frame and electrically driven hollow glass sleeved in the main body frame; the electric drive hollow glass is provided with an electronic module, and the electronic module comprises a wireless communication module and a secondary battery which are electrically connected; the solar power generation device is arranged on the outer side of the main body frame, and the power output end of the solar power generation device is connected with the power input end of the secondary battery. According to the invention, the wiring of Ethernet wires and power supply wires is not required to be designed in advance, and the electrochromic device can realize full-automatic power generation, charging and wireless independent communication control by arranging the electronic module and the solar power generation device for supplying power.

Description

Electrochromic device and mounting method thereof

Technical Field

The invention relates to the technical field of electrochromic, in particular to an electrochromic device and an installation method thereof.

Background

Electrochromic is an optical property of a material, and refers to a phenomenon that a material changes color stably and reversibly under the action of an applied electric field, and the material shows reversible changes in color and transparency in appearance. With the rapid development of the intelligent building industry, electrochromic materials are gradually applied to doors and windows for home and business use.

The traditional hollow glass does not need electronic control, but an intelligent electrochromic device represented by electrochromic glass needs electric drive, and an anode and cathode electrochromic layer in the electrochromic glass selectively absorbs or reflects external heat radiation by adjusting light absorption and transmission, prevents internal heat from diffusing outwards, and achieves the purposes of improving natural illumination degree, changing colors, saving energy, preventing peeping and the like. The electric drive hollow glass (electronic IGU) needs power supply and simultaneously needs to realize communication control through network cables such as Ethernet. POE (Power Over Ethernet) can be powered while enabling network communication, so we typically use POE in the building to connect electrically driven hollow glass to a central control system.

CN 109844631a discloses an electrochromic window powered and wirelessly, the electrochromic window comprising: an electrochromic lite having an electrochromic device disposed on a transparent substrate; an on-board receiver in electrical communication with a busbar of the electrochromic device; and an on-board transmitter in electrical communication with the on-board receiver or other power source to receive power, the on-board transmitter configured to convert electrical energy into a wireless power transmission configured to be transmitted to one or more remote wireless receivers, wherein the one or more remote wireless receivers are configured to convert the received wireless power transmission into electrical energy to power at least one remote mobile electronic device.

CN 108388058A discloses an electrochromic device and a window assembly. An on-board Electrochromic (EC) window controller is described in one embodiment that is configured to be in close proximity to an EC window within, for example, an IGU. The controller may be part of a window assembly that includes an IGU with one or more EC panes, and thus does not have to be matched to an EC window and installed in the field.

Said invention discloses that electrochromic material can be used in window, and can implement power supply and communication control in several modes. But prior designs required wires drawn from the electrically driven hollow glass to connect to external electronics. When the electric wire is damaged and cannot supply power or the Ethernet wire is damaged and cannot communicate with the master controller, the electric drive hollow glass fails; meanwhile, when installing electrochromic glasses, installing cables for power and control through a window frame system of a building and a structural system or a support of the building is costly and complicated to operate.

CN 210033216U discloses a wireless charging electrochromic window, comprising an outer window frame, electrochromic glass, and a window sash for connecting the outer window frame and the electrochromic glass, wherein a wireless charging assembly is arranged on the window sash. The electrochromic device is subjected to wireless charging design, but the problem that the service life of the assembly is easy to exist due to the fact that the coil is used for inducing electromagnetic signals to generate current, and meanwhile the energy-saving purpose cannot be achieved.

In order to overcome the shortcomings of the prior art, there is a need to provide an electrochromic device which is independently controlled in a wireless manner, is capable of guaranteeing operation even if an external connection is disconnected, and is efficient and energy-saving.

Disclosure of Invention

The invention aims to provide an electrochromic device and an installation method thereof, wherein an electronic module is arranged in electric drive hollow glass, and a solar power generation device is arranged for supplying power, so that wireless communication control and power supply of the electric drive hollow glass under the condition that an external controller is disconnected are realized, and the electrochromic device can generate power, charge and independently control in a wireless mode.

In order to achieve the aim of the invention, the invention adopts the following technical scheme:

in a first aspect, the present invention provides an electrochromic device comprising a main body frame and an electrically driven hollow glass sleeved inside the main body frame;

the electric drive hollow glass is provided with an electronic module, and the electronic module comprises a wireless communication module and a secondary battery which are electrically connected;

the solar power generation device is arranged on the outer side of the main body frame, and the power output end of the solar power generation device is connected with the power input end of the secondary battery.

According to the electrochromic device provided by the invention, the electronic module is arranged in the electric drive hollow glass, and the solar power generation device is arranged to supply power to the secondary battery, so that the wireless communication control and power supply of the electric drive hollow glass under the condition that an external controller is disconnected are realized, the normal operation of the electric drive hollow glass is ensured, and the electrochromic device can realize full-automatic power generation, charging and wireless independent control.

Preferably, the solar power generation device comprises a solar power generation panel.

Preferably, the wireless communication module comprises a bluetooth module and a WIFI module, and is used for realizing wireless communication control of the electric drive hollow glass.

"WIFI (Wireless Fidelity)" in the WIFI module is a wireless network communication technology for wirelessly interconnecting connectable network devices.

Preferably, the external side wall of the secondary battery is provided with a USB interface for charging the secondary battery, and the internal side wall is provided with a connection device for connecting the electric wire of the electrically driven hollow glass.

The USB interface (Universal Serial Bus) is an external bus standard, is used for standardizing connection and communication between a computer and external equipment, and is an interface technology applied to the PC field.

Preferably, the USB interface is connected with a charging wire, and the charging wire is connected with an output wire of the solar power generation device.

Preferably, the connection means comprises a connection needle.

The connecting device is connected with the electric wire of the electric drive hollow glass, so that the control of the current and the voltage in the electric drive hollow glass can be realized.

Preferably, the external side wall of the secondary battery is also provided with an Ethernet interface for realizing wired communication control and power supply to the electrically driven hollow glass.

The Ethernet interface can be used for controlling and supplying power to the wired communication of the electric drive hollow glass at ordinary times, and ensures that the electric drive hollow glass can realize communication and power supply with the master controller in two modes.

Preferably, the electrically driven hollow glass further comprises an outer side glass and an inner side glass, an electrochromic assembly is arranged between the outer side glass and the inner side glass, and an electric wire connected with the electronic module is arranged inside the electrochromic assembly.

Preferably, the joint of the electrochromic assembly and the inner glass is provided with a first sealant.

The first sealant is used for connecting and fixing the electrochromic assembly and the inner glass, so that movement dislocation is avoided, and a hollow sealing state between the outer glass and the inner glass is formed.

Preferably, the electronic module is connected with the outer glass and the inner glass through a second sealing agent.

The second sealant can fix the electronic module with the outer glass and the inner glass.

Preferably, the electronic module is sealed by a second sealant after being connected with the electric wire, or a through groove is formed in the second sealant when the second sealant is sealed, and then the electronic module is placed in the through groove and connected with the electric wire.

The mounting of the electronic module may be performed before or after the application of the second sealant without adversely affecting the reliability and other properties of the electrically driven hollow glass.

In a second aspect, the present invention provides a method of mounting an electrochromic device according to the first aspect, the method comprising:

fixing the electronic module in the electrically driven hollow glass, and then combining with the main body frame; the output wire of the solar power generation device is connected with a charging wire connected with a USB interface of the secondary battery.

According to the installation method provided by the invention, the wires of the Ethernet wires and the power supply wires are not required to be designed in advance to be connected with external electronic devices, and the secondary battery can be powered by converting solar energy into electric energy only by fixing the electronic module in the electric drive hollow glass and then connecting the output wire of the solar power generation device with the charging wire, so that the wireless communication control and power supply of the electronic module to the electric drive hollow glass are realized, and the electrochromic device achieves the effect of multicolor change.

Compared with the prior art, the invention has the following beneficial effects:

(1) According to the electrochromic device provided by the invention, the electronic module is arranged in the electric drive hollow glass, and the solar power generation device is arranged to supply power to the secondary battery, so that the wireless communication control and power supply of the electric drive hollow glass under the condition that an external controller is disconnected are realized, the normal operation of the electric drive hollow glass is ensured, and the electrochromic device can realize full-automatic power generation, charging and wireless independent control;

(2) According to the installation method provided by the invention, the wires of the Ethernet wires and the power supply wires are not required to be designed in advance to be connected with external electronic devices, and the secondary battery can be powered by converting solar energy into electric energy only by fixing the electronic module in the electric drive hollow glass and then connecting the output wire of the solar power generation device with the charging wire, so that the wireless communication control and power supply of the electronic module to the electric drive hollow glass are realized, and the electrochromic device achieves the effect of multicolor change.

Drawings

Fig. 1 is a schematic structural view of an electrochromic device provided in example 1;

wherein: 1, electrically driving hollow glass; 2, an electronic module; 3, converting the head; 4, a solar power generation plate; 5, charging wire; 6, outputting an electric wire; 7, electric wires.

Detailed Description

The technical scheme of the invention is further described by the following specific embodiments. It will be apparent to those skilled in the art that the examples are merely to aid in understanding the invention and are not to be construed as a specific limitation thereof.

Example 1

The embodiment provides an electrochromic device, the structural schematic diagram of which is shown in fig. 1, wherein the electrochromic device comprises a main body frame and an electrically driven hollow glass 1 sleeved in the main body frame;

the electric drive hollow glass 1 is provided with an electronic module 2, and the electronic module 2 comprises a wireless communication module and a secondary battery which are electrically connected; a solar power generation plate 4 is arranged on the outer side of the main body frame, and the power output end of the solar power generation plate 4 is connected with the power input end of the secondary battery;

the wireless communication module comprises a Bluetooth module and a WIFI module and is used for realizing wireless communication control of the electric drive hollow glass 1; the external side wall of the secondary battery is provided with a USB interface and an Ethernet interface; the USB interface is connected with a charging wire 5, and the charging wire 5 is connected with an output wire 6 of the solar power generation panel 4 through a conversion head 3 and is used for charging a secondary battery; the Ethernet interface is used for realizing wired communication control and power supply of the electric drive hollow glass 1; the inner side wall of the secondary battery is provided with a connecting pin for connecting the electric wire 7 of the electrically driven hollow glass 1;

the electric drive hollow glass 1 further comprises an outer side glass and an inner side glass, an electrochromic assembly is arranged between the outer side glass and the inner side glass, and an electric wire 7 connected with the connecting needle is arranged inside the electrochromic assembly; a first sealant is arranged at the joint of the electrochromic assembly and the inner glass; the electronic module 2 is connected with the outer glass and the inner glass through a second sealant; the electronic module 2 is sealed by the second sealant after being connected with the electric wire 7.

The method for mounting the electrochromic device comprises the following steps:

fixing the electronic module 2 in the electrically driven hollow glass 1, and then combining with the main body frame; the output wire 6 of the solar power generation panel 4 and the charging wire 5 are connected through the conversion head 3.

The electrochromic device can realize solar energy independent charging and wireless communication control, can also realize wired communication control and power supply to the electrochromic device through an Ethernet interface, and can still work normally under the condition that the electric wire of the electric drive hollow glass connected with an external electronic controller is broken.

Example 2

The embodiment provides an electrochromic device, which comprises a main body frame and an electrically driven hollow glass 1 sleeved in the main body frame;

the electric drive hollow glass 1 is provided with an electronic module 2, and the electronic module 2 comprises a wireless communication module and a secondary battery which are electrically connected; a solar power generation plate 4 is arranged on the outer side of the main body frame, and the power output end of the solar power generation plate 4 is connected with the power input end of the secondary battery;

the wireless communication module comprises a Bluetooth module and a WIFI module and is used for realizing wireless communication control of the electric drive hollow glass 1; the external side wall of the secondary battery is provided with a USB interface and an Ethernet interface; the USB interface is connected with a charging wire 5, and the charging wire 5 is connected with an output wire 6 of the solar power generation panel 4 through a conversion head 3 and is used for charging a secondary battery; the Ethernet interface is used for realizing wired communication control and power supply of the electric drive hollow glass 1; the inner side wall of the secondary battery is provided with a connecting pin for connecting the electric wire 7 of the electrically driven hollow glass 1;

the electric drive hollow glass 1 further comprises an outer side glass and an inner side glass, an electrochromic assembly is arranged between the outer side glass and the inner side glass, and an electric wire 7 connected with the connecting needle is arranged inside the electrochromic assembly; a first sealant is arranged at the joint of the electrochromic assembly and the inner glass; the electronic module 2 is connected with the outer glass and the inner glass through a second sealant; the second sealant is sealed by forming a through groove, and then the electronic module 2 is placed in the through groove and connected with the electric wire 7.

The method for mounting the electrochromic device comprises the following steps:

fixing the electronic module 2 in the electrically driven hollow glass 1, and then combining with the main body frame; the output wire 6 of the solar power generation panel 4 and the charging wire 5 are connected through the conversion head 3.

The electrochromic device can realize solar energy independent charging and wireless communication control, can also realize wired communication control and power supply to the electrochromic device through an Ethernet interface, and can still work normally under the condition that the electric wire of the electric drive hollow glass connected with an external electronic controller is broken.

Comparative example 1

The present comparative example provides an electrochromic device differing from embodiment 1 in that the electronic module 2 is not provided in the electrochromic device, and the direct pull-out wire is connected to the ethernet cable.

The electric wire or the Ethernet wire is damaged, and the electric drive hollow glass is connected with an external electronic controller, so that communication and power supply receiving can not be performed under the condition of wire breakage, and normal work can not be performed; meanwhile, wiring of the electric wires and the Ethernet wires needs to be designed in advance, and the operation is complex and the cost is high.

Comparative example 2

The present comparative example provides an electrochromic device differing from embodiment 1 in that the solar power panel 4 is not provided in the electrochromic device, and the charging wire 5 is connected to an external power line.

When no solar power generation panel exists, the wiring of the charging wire and the external power transmission line is required to be designed in advance, the operation is complex, the cost is high, and the purposes of saving energy and utilizing renewable energy sources cannot be achieved.

In summary, according to the electrochromic device provided by the invention, the electronic module is arranged in the electrically driven hollow glass, and the solar power generation device is arranged to supply power to the secondary battery, so that wireless communication control and power supply to the electrically driven hollow glass under the condition that an external controller is disconnected are realized, the normal operation of the electrically driven hollow glass is ensured, and the electrochromic device can realize full-automatic power generation, charging and wireless independent control;

according to the installation method provided by the invention, the wires of the Ethernet wires and the power supply wires are not required to be designed in advance to be connected with external electronic devices, and the secondary battery can be powered by converting solar energy into electric energy only by fixing the electronic module in the electric drive hollow glass and then connecting the output wire of the solar power generation device with the charging wire, so that the wireless communication control and power supply of the electronic module to the electric drive hollow glass are realized, and the electrochromic device achieves the effect of multicolor change.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and it should be apparent to those skilled in the art that any changes or substitutions that fall within the technical scope of the present invention disclosed herein are within the scope of the present invention.

Claims (10)

1. An electrochromic device is characterized by comprising a main body frame and electrically driven hollow glass sleeved in the main body frame;

the electric drive hollow glass is provided with an electronic module, and the electronic module comprises a wireless communication module and a secondary battery which are electrically connected;

the solar power generation device is arranged on the outer side of the main body frame, and the power output end of the solar power generation device is connected with the power input end of the secondary battery.

2. The electrochromic device according to claim 1, wherein the wireless communication module comprises a bluetooth module and a WIFI module for implementing wireless communication control of the electrically driven hollow glass.

3. Electrochromic device according to claim 1 or 2, characterized in that the external side wall of the secondary battery is provided with a USB interface for charging the secondary battery, and the internal side wall is provided with connection means for connecting the electric wires of the electrically driven hollow glass.

4. The electrochromic device according to claim 3, wherein the USB interface is connected with a charging wire, the charging wire being connected with an output wire of a solar power generation device;

preferably, the connection means comprises a connection needle.

5. The electrochromic device according to claim 3 or 4, wherein the external side wall of the secondary battery is further provided with an ethernet interface for wired communication control and power supply of the electrically driven hollow glass.

6. The electrochromic device according to any one of claims 1-5, wherein the electrically driven hollow glass further comprises an outer glass and an inner glass, between which an electrochromic assembly is arranged, inside which an electrical wire connecting the electronic module is arranged.

7. The electrochromic device according to claim 6, wherein a first sealant is provided at the joint of the electrochromic assembly and the inner glass.

8. The electrochromic device according to claim 6, wherein said electronic module is connected to the outside glass and the inside glass by a second sealant.

9. The electrochromic device according to claim 8, wherein the electronic module is sealed with a second sealant after being connected to the wires, or wherein the second sealant is sealed with a through groove, and then the electronic module is placed in the through groove and connected to the wires.

10. A method of mounting an electrochromic device according to any one of claims 1 to 9, comprising:

fixing the electronic module in the electrically driven hollow glass, and then combining with the main body frame; the output wire of the solar power generation device is connected with a charging wire connected with a USB interface of the secondary battery.