阅读说明：本技术 一种基于太阳能的节能玻璃幕墙及其工作方法 (Solar energy-saving glass curtain wall and working method thereof ) 是由 陈介生 于 2020-02-28 设计创作，主要内容包括：一种基于太阳能的节能玻璃幕墙及其工作方法,包括：支撑架,还包括：玻璃幕墙本体、太阳能模块、控制处理器；玻璃幕墙本体包括内层玻璃板、外层玻璃板、中空腔；玻璃幕墙本体的外侧设置有安装框架；安装框架的两侧支架上分别设置有滑动轨道；太阳能模块的一侧设置有竖直滑动件,一个太阳能模块设置有两个竖直滑动件,太阳能模块通过竖直滑动件与滑动轨道连接；太阳能模块通过竖直滑动件沿滑动轨道移动；安装框架对应设置若干个太阳能模块,太阳能模块与安装框架的平面呈预设角度；安装框架上设置有光线传感器,光线传感器与控制处理器连接,光线传感器向控制处理器输出光线数据,控制处理器根据光线数据驱动竖直滑动件移动。(An energy-saving glass curtain wall based on solar energy and a working method thereof comprise the following steps: the support frame still includes: the solar energy curtain wall comprises a glass curtain wall body, a solar module and a control processor; the glass curtain wall body comprises an inner layer glass plate, an outer layer glass plate and a hollow cavity; the outer side of the glass curtain wall body is provided with an installation frame; sliding rails are respectively arranged on the brackets at the two sides of the mounting frame; one side of each solar module is provided with a vertical sliding piece, one solar module is provided with two vertical sliding pieces, and the solar modules are connected with the sliding rails through the vertical sliding pieces; the solar module moves along the sliding rail through the vertical sliding piece; the installation frame is correspondingly provided with a plurality of solar modules, and the solar modules and the plane of the installation frame form a preset angle; be provided with light sensor on the installation frame, light sensor is connected with control processor, and light sensor exports light data to control processor, and control processor moves according to the vertical slider of light data drive.)

1. An energy-conserving glass curtain wall based on solar energy includes: the support frame, its characterized in that still includes: the solar energy curtain wall comprises a glass curtain wall body, a solar module and a control processor;

the glass curtain wall body comprises an inner glass plate, an outer glass plate and a hollow cavity, wherein the hollow cavity is arranged between the inner glass plate and the outer glass plate;

the glass curtain wall comprises a glass curtain wall body and is characterized in that an installation frame is arranged on the outer side of the glass curtain wall body, the installation frame comprises two supports in the vertical direction and two supports in the horizontal direction, and the installation frame is formed by connecting four corners of the supports;

sliding rails are respectively arranged on the brackets on the two sides of the mounting frame and are attached to the brackets in the vertical direction;

the solar module is composed of a plurality of solar components, and the number of the solar modules is several; one side of each solar module is provided with a vertical sliding piece, one solar module is provided with two vertical sliding pieces, and the solar modules are connected with the sliding rails through the vertical sliding pieces; the solar module moves along the sliding rail through the vertical sliding piece; the vertical sliding piece is connected with the control processor;

the installation frame is correspondingly provided with a plurality of solar modules, and the solar modules and the plane of the installation frame form a preset angle;

be provided with light sensor on the installation frame, light sensor with control processor is connected, light sensor to control processor output light data, control processor drives according to light data vertical slider removes.

2. The solar energy-saving glass curtain wall as claimed in claim 1, wherein the solar module further comprises an adjusting device, the adjusting device comprises a fixing shaft and an adjusting device, the fixing shaft is connected with the vertical sliding member, the other side of the fixing shaft is connected with the adjusting device, the adjusting device is connected with the solar module, and the adjusting device is electrically connected with the control processor.

3. The solar energy-saving glass curtain wall as claimed in claim 1, wherein the solar module is further provided with a horizontal displacement member, the horizontal displacement member is arranged between the vertical sliding member and the solar module, and the horizontal movement member connects the vertical sliding member and the solar module;

the horizontal displacement piece is electrically connected with the control processor, and the control processor drives the horizontal displacement piece to stretch in the horizontal direction.

4. The solar energy-saving glass curtain wall as claimed in claim 3, wherein a light monitoring device is disposed on an upper surface of one side of the solar module where the vertical sliding member is disposed, the light monitoring device is used for monitoring a light value received by the solar module at present, the light monitoring device is connected to the control processor, and the light monitoring device outputs the light value to the control processor.

5. The solar energy-saving glass curtain wall as claimed in claim 2, wherein the inner side of the inner glass plate is provided with a temperature sensor for monitoring the temperature of the inner side of the inner glass plate, and the temperature sensor outputs the temperature value to the control processor.

6. The working method of the energy-saving glass curtain wall based on the solar energy as claimed in any one of the claims 1 to 5, characterized by comprising the following steps:

the vertical sliding piece is positioned at an initial position, and the solar modules are mutually attached;

the light sensor monitors ambient light, and if light exists in the environment, the light sensor outputs a movement signal to the control processor;

the control processor outputs a moving signal to the vertical sliding piece, the vertical sliding piece moves to a designated position according to the moving signal, and the solar modules are separated.

7. The working method of the solar energy-saving glass curtain wall as claimed in claim 6, characterized by comprising the following steps:

after the control processor outputs the moving signal to the vertical sliding piece, the control processor also outputs a rectification and regulation signal to the regulating device;

the adjusting device adjusts the solar assembly to a preset angle according to the rectification and adjustment signal.

8. The working method of the solar energy-saving glass curtain wall as claimed in claim 6, characterized by comprising the following steps:

after the control processor outputs a moving signal to the vertical sliding piece, the control processor also outputs a displacement signal to the horizontal displacement piece;

the horizontal displacement piece extends out, and except the first solar module, other solar modules move outwards from top to bottom in sequence.

9. The working method of the solar energy-saving glass curtain wall as claimed in claim 8, characterized by comprising the following steps:

the light monitoring device monitors the light value received by the current solar module and outputs the light value to the control processor;

and if the light value of the solar module is the same as that of the first solar module, the control processor outputs a stop signal to the horizontal displacement piece corresponding to the solar module.

10. The working method of the solar energy-saving glass curtain wall as claimed in claim 7, characterized by comprising the following steps:

the temperature sensor outputs a temperature value to the control processor;

and if the temperature value is lower than the preset temperature value, the control processor outputs a reset signal to the adjusting device.

Technical Field

The invention relates to the field of photovoltaic curtain walls, in particular to a solar energy-saving glass curtain wall and a working method thereof.

Background

The curtain wall is the outer wall enclosure of the building, does not bear the weight, hangs like a curtain, so is also called as a curtain wall, and is a light wall with decorative effect commonly used by modern large-scale and high-rise buildings. The building outer protective structure or decorative structure is composed of a panel and a supporting structure system, can have certain displacement capacity or certain self deformation capacity relative to the main structure, and does not play a role of the main structure. The curtain wall is an outer wall construction method which utilizes various strong, light and beautiful building materials to replace the traditional masonry or window wall combination, and is an outer wall construction method which surrounds the periphery of a main structure to ensure that the whole building is beautiful, and has sound and safe use functions. In short, a building is put on a beautiful coat. The curtain wall mainly comprises an outer wall of a building, a daylighting roof (cover) and a rain tent. The solar photoelectric curtain is a high-tech product, is a novel building material integrating the functions of power generation, sound insulation, heat insulation, safety and decoration, particularly does not discharge carbon dioxide or generate gases harmful to greenhouse effect in the process of power generation by a solar cell, has no noise, is a clean energy source and has good compatibility with the environment. However, the photoelectric curtain wall is expensive, so that the photoelectric curtain wall is mostly used for roofs and outer walls of landmark buildings. The intelligent and humanized characteristics of the building are fully reflected, and the intelligent and humanized building represents the latest development direction of the building photovoltaic integration technology internationally. The photoelectric curtain wall is adhered to the glass and embedded between the two pieces of glass, and light energy can be converted into electric energy through the battery. This is the solar photoelectric curtain wall. The solar photovoltaic power generation device is a photovoltaic cell and photovoltaic panel technology, converts sunlight into electric energy, and the key technology is a solar photovoltaic cell technology. The solar photovoltaic cell uses photon energy of sunlight to move electrons of an irradiated electrolyte or semiconductor material, thereby generating a voltage, which is called a photoelectric effect.

With increasing attention to energy, solar photovoltaic applications have been rapidly developed and different applications have been tried in various industries. Solar energy curtain often includes toughened glass, photovoltaic module and glue sealing layer as an industrialization product, but such structure exists the influence to the curtain light flux, influences indoor daylighting to and photovoltaic module's angle is fixed can not adjust the scheduling problem.

Disclosure of Invention

The purpose of the invention is as follows:

aiming at the problems mentioned in the background technology, the invention provides an energy-saving glass curtain wall based on solar energy and a working method thereof.

The technical scheme is as follows:

an energy-conserving glass curtain wall based on solar energy includes: the support frame still includes: the solar energy curtain wall comprises a glass curtain wall body, a solar module and a control processor;

the glass curtain wall body comprises an inner glass plate, an outer glass plate and a hollow cavity, wherein the hollow cavity is arranged between the inner glass plate and the outer glass plate;

the glass curtain wall comprises a glass curtain wall body and is characterized in that an installation frame is arranged on the outer side of the glass curtain wall body, the installation frame comprises two supports in the vertical direction and two supports in the horizontal direction, and the installation frame is formed by connecting four corners of the supports;

sliding rails are respectively arranged on the brackets on the two sides of the mounting frame and are attached to the brackets in the vertical direction;

the solar module is composed of a plurality of solar components, and the number of the solar modules is several; one side of each solar module is provided with a vertical sliding piece, one solar module is provided with two vertical sliding pieces, and the solar modules are connected with the sliding rails through the vertical sliding pieces; the solar module moves along the sliding rail through the vertical sliding piece; the vertical sliding piece is connected with the control processor;

the installation frame is correspondingly provided with a plurality of solar modules, and the solar modules and the plane of the installation frame form a preset angle;

be provided with light sensor on the installation frame, light sensor with control processor is connected, light sensor to control processor output light data, control processor drives according to light data vertical slider removes.

As a preferable mode of the present invention, the solar module further includes an adjusting device, the adjusting device includes a fixing shaft and an adjusting device, the fixing shaft is connected to the vertical sliding member, the other side of the fixing shaft is connected to the adjusting device, the adjusting device is connected to the solar module, and the adjusting device is electrically connected to the control processor.

As a preferred mode of the invention, the solar module is further provided with a horizontal displacement piece, the horizontal displacement piece is arranged between the vertical sliding piece and the solar module, and the horizontal moving piece is connected with the vertical sliding piece and the solar module;

the horizontal displacement piece is electrically connected with the control processor, and the control processor drives the horizontal displacement piece to stretch in the horizontal direction.

As a preferable mode of the present invention, a light monitoring device is disposed on an upper surface of one side of the solar module, where the vertical sliding member is disposed, and is configured to monitor a light value currently received by the solar module, and the light monitoring device is connected to the control processor and outputs the light value to the control processor.

In a preferred aspect of the present invention, a temperature sensor is provided on the inner side of the inner glass plate for monitoring the temperature of the inner side of the inner glass plate, and the temperature sensor outputs a temperature value to the control processor.

A working method of an energy-saving glass curtain wall based on solar energy comprises the following steps:

the vertical sliding piece is positioned at an initial position, and the solar modules are mutually attached;

the light sensor monitors ambient light, and if light exists in the environment, the light sensor outputs a movement signal to the control processor;

the control processor outputs a moving signal to the vertical sliding piece, the vertical sliding piece moves to a designated position according to the moving signal, and the solar modules are separated.

The method comprises the following steps:

after the control processor outputs the moving signal to the vertical sliding piece, the control processor also outputs a rectification and regulation signal to the regulating device;

the adjusting device adjusts the solar assembly to a preset angle according to the rectification and adjustment signal.

The method comprises the following steps:

after the control processor outputs a moving signal to the vertical sliding piece, the control processor also outputs a displacement signal to the horizontal displacement piece;

the horizontal displacement piece extends out, and except the first solar module, other solar modules move outwards from top to bottom in sequence.

The method comprises the following steps:

the light monitoring device monitors the light value received by the current solar module and outputs the light value to the control processor;

and if the light value of the solar module is the same as that of the first solar module, the control processor outputs a stop signal to the horizontal displacement piece corresponding to the solar module.

The method comprises the following steps:

the temperature sensor outputs a temperature value to the control processor;

and if the temperature value is lower than the preset temperature value, the control processor outputs a reset signal to the adjusting device.

The invention realizes the following beneficial effects:

but through angle of adjustment and the solar module of distance, realize the assurance to glass curtain wall light flux volume, through angle of adjustment, enlarge glass curtain wall's light flux volume, through increasing the distance of solar module and glass curtain wall, improve glass curtain wall's light inlet volume.

Through the adjustment of the distance between the solar assemblies and the distance between the solar energy and the photovoltaic curtain wall, the direct light proportion of each solar module is improved, and the power generation capacity is improved.

Through the monitoring to indoor ambient temperature, adjust solar energy component's angle, diminish the contained angle adjustment of solar energy module and glass curtain wall when the temperature is low, improve glass curtain wall's heat preservation effect, reduce the heat and run off.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a schematic view of a curtain wall of an energy-saving glass curtain wall based on solar energy provided by the invention;

FIG. 2 is a schematic front view of a curtain wall of an energy-saving glass curtain wall based on solar energy according to the present invention;

FIG. 3 is a schematic side view of a solar module of a solar energy-saving glass curtain wall according to the present invention;

FIG. 4 is a system connection diagram of a solar energy-saving glass curtain wall according to the present invention;

FIG. 5 is a schematic side view of a solar module of a second solar-based energy-saving glass curtain wall according to the present invention;

FIG. 6 is a system connection diagram of a second solar-based energy-saving glass curtain wall provided by the invention;

FIG. 7 is a schematic side view of a solar module of a third solar-based energy-saving glass curtain wall according to the present invention;

FIG. 8 is an extended schematic view of a solar module of a third solar-based energy-saving glass curtain wall provided by the invention;

FIG. 9 is a system connection diagram of a third solar-based energy-saving glass curtain wall provided by the invention;

fig. 10 is a system connection diagram of a fourth solar-based energy-saving glass curtain wall provided by the invention.

1. The glass curtain wall comprises a glass curtain wall body, 11 parts of an inner glass plate, 12 parts of an outer glass plate, 13 parts of a hollow cavity, 2 parts of an installation frame, 21 parts of a sliding rail, 3 parts of a solar module, 31 parts of a vertical sliding part, 32 parts of a fixed shaft, 33 parts of an adjusting device, 34 parts of a horizontal displacement part, 35 parts of a light monitoring device, 4 parts of a light sensor, 5 parts of a control processor and 6 parts of a temperature sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.