CN110565848B

CN110565848B - Multifunctional intelligent building curtain wall based on new energy

Info

Publication number: CN110565848B
Application number: CN201910685906.4A
Authority: CN
Inventors: 陈日飙; 陈竹; 郭艺端; 陈介生
Original assignee: Hong Kong Huayi Design Consultants Shenzhen Ltd
Current assignee: Hong Kong Huayi Design Consultants Shenzhen Ltd
Priority date: 2019-07-28
Filing date: 2019-07-28
Publication date: 2021-08-06
Anticipated expiration: 2039-07-28
Also published as: CN110565848A

Abstract

The invention relates to a multifunctional intelligent building curtain wall based on new energy, which comprises an outer curtain wall, an inner curtain wall and a support, wherein the support is in a grid shape, the outer curtain wall comprises a first composition module and a second composition module which form the outer curtain wall, a plurality of first rotating shafts, a plurality of first control chips, a plurality of second rotating shafts, a plurality of second control chips and a processing device, the first composition module and the second composition module are connected through second rotating shafts, the first composition module and the second composition module form a whole, the first rotating shafts are connected with the support, the first control chips are connected with the second control chips and are respectively connected with the processing device, the inner curtain wall comprises a photosensitive layer and photosensitive chips, the photosensitive chips are arranged on the photosensitive layer and are connected with the processing device, the photosensitive chips sense the angle of sunlight irradiating the inner curtain wall, and the processing device drives the first control chips and the second control chips according to the angle of the sunlight irradiating the inner curtain wall sensed by the photosensitive chips The sheet adjusts the shape of the outer curtain wall.

Description

Multifunctional intelligent building curtain wall based on new energy

Technical Field

The invention relates to the field of building curtain walls, in particular to a multifunctional intelligent building curtain wall based on new energy.

Background

With the rapid development of solar energy application, solar photovoltaic power generation is widely applied. The solar curtain wall can convert solar energy into electric energy and is widely concerned, the solar curtain wall does not occupy cultivated land, the building power consumption requirement can be met, and the novel building material has the advantages of light transmission, heat insulation, noise insulation, energy conservation, attractiveness, elegance and the like, and becomes the first choice for photovoltaic application and research and development of all countries in the world. The solar curtain wall combines the solar cell with various buildings, not only has the function of the curtain wall, but also can generate electric energy for the buildings to use, so as to form the photovoltaic building integration.

The existing building curtain wall has certain disadvantages when in use, firstly, the existing building curtain wall is exposed outside in the air for a long time, a large amount of dust is attached to the surface of a curtain plate, and in the cleaning process, the curtain plate has certain dangerousness and certain adverse effects.

Disclosure of Invention

The purpose of the invention is as follows:

the invention provides a multifunctional intelligent building curtain wall based on new energy, aiming at the problems that strong illumination light can be formed when sunlight irradiates a building every day, the best angle exists for the absorption of the sunlight, but the angle cannot be adjusted in one day as the existing adjusting plate is fixed on a supporting rod.

The technical scheme is as follows:

a multifunctional intelligent building curtain wall based on new energy comprises an outer curtain wall, an inner curtain wall and a support, wherein the support is latticed,

the outer curtain wall comprises a first component module and a second component module which form the outer curtain wall, a plurality of first rotating shafts, a plurality of first control chips, a plurality of second rotating shafts, a plurality of second control chips and a processing device, wherein the first component module and the second component module are connected through the second rotating shafts, the first component module and the second component module form a whole, the first rotating shafts are arranged in the middle positions of the upper side and the lower side of the whole, the first rotating shafts are connected with the bracket, the first control chips are connected with the second control chips and are respectively connected with the processing device,

the inner curtain wall comprises a photosensitive layer and a photosensitive chip, the photosensitive chip is arranged on the photosensitive layer, the photosensitive chip is connected with the processing device, the photosensitive chip senses sunlight and irradiates the angle of the inner curtain wall, the processing device irradiates the angle of the inner curtain wall according to the sunlight sensed by the photosensitive chip, the first control chip and the second control chip are adjusted, and the outer curtain wall is in a shape.

In a preferred aspect of the present invention, the length of the first module assembly is equal to the length of the second module assembly, the width of the first module assembly is greater than the width of the second module assembly, and the first rotating shaft is disposed on both upper and lower sides of the first module assembly.

As a preferable mode of the present invention, each of the first and second integral units includes two second constituent modules provided on both sides of the first constituent module in the vertical direction, and two second rotation shafts.

In a preferred aspect of the present invention, the processing device includes a time chip that performs time counting within one day, the time counting of the time chip represents a solar irradiation direction, and the processing device drives the first control chip to control the first rotation shaft to rotate in accordance with the solar irradiation direction according to the time counting of the time chip.

As a preferred mode of the present invention, the outer curtain wall refracts sunlight, the photosensitive layer senses an incident direction of the refracted light incident on the inner curtain wall through the photosensitive chip, and the processing device drives the first control chip to control the first rotating shaft to selectively adjust the orientation of the first component module according to the incident direction of the refracted light on the inner curtain wall.

As a preferable mode of the present invention, the processing device drives the second control chip to control the second rotating shaft to rotate according to the rotation angle of the first rotating shaft, and the second rotating shaft drives the second component module connected correspondingly to rotate.

As a preferred aspect of the present invention, the orientation of the first component module represents an irradiation direction of the sun, and the processing device drives a second rotating shaft connected to a second component module corresponding to the irradiation direction of the sun to rotate according to the orientation of the first component module, and the second rotating shaft drives the connected second component module to rotate.

As a preferable mode of the present invention, a wind direction measuring device is disposed at a side of the net structure of the support, the wind direction measuring device is connected to the processing device, and the processing device drives the first control chip to control the first rotating shaft to rotate according to the wind direction measured by the wind direction measuring device.

In a preferred aspect of the present invention, the processing device drives the first control chip to control the first rotating shaft to rotate the first component module inward on the side close to the wind direction, the processing device drives the second control chip to control the second rotating shaft on the side far from the wind direction to rotate, and the second rotating shaft controls the connected second component module to rotate outward.

As a preferable mode of the present invention, the solar energy collecting device further comprises a solar panel and a ventilation duct, wherein the solar panel is used for converting sunlight into solar energy; the ventilation duct is used for ventilation.

The invention realizes the following beneficial effects:

the shape of the outer curtain wall is adjusted through the first rotating shaft and the second rotating shaft, so that the angle of refracted light refracted by the first component module and further incident to the inner curtain wall is adjusted, the refracted light is made to directly irradiate the inner curtain wall, and the light intensity of sunlight absorbed by the solar panel is made to be maximum; simultaneously, owing to constitute the module refraction through first for the light intensity that sees through outer curtain and inlayer curtain entering building weakens, makes the inside temperature of building reduce and can not cause the inside personnel of building to produce dazzlingly because of sunshine is too strong.

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 half-section view of the curtain wall of the present invention;

FIG. 2 is a schematic diagram of a first component module and a second component module according to the present invention;

FIG. 3 is a system block diagram of the present invention.

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.

Refer to fig. 1-3. The utility model provides a multi-functional intelligent building curtain based on new forms of energy, includes outer curtain 1, inlayer curtain 2 and support 3, support 3 is latticed.

Outer curtain 1 is including constituting first component module 4 and the second component module 5, a plurality of first rotation axis 6, a plurality of first control chip 7, a plurality of second rotation axis 8, a plurality of second control chip 9, the processing apparatus 10 of outer curtain 1, first component module 4 and second component module 5 passes through second rotation axis 8 is connected, first component module 4 with second component module 5 constitutes a whole, first rotation axis 6 set up in the intermediate position of both sides about whole, first rotation axis 6 connect in support 3, first control chip 7 connect with second control chip 9 connects respectively processing apparatus 10.

Inner curtain wall 2 includes photosensitive layer 11 and sensitization chip 12, sensitization chip 12 set up in photosensitive layer 11, sensitization chip 12 is connected processing apparatus 10, sensitization chip 12 sensing sunshine shines the angle of inner curtain wall 2, processing apparatus 10 basis the sunshine of sensitization chip 12 sensing shines the angle drive of inner curtain wall 2 first control chip 7 and the adjustment of second control chip 9 the form of outer curtain wall 1.

In a preferred embodiment of the present invention, the length of the first module 4 is equal to the length of the second module 5, the width of the first module 4 is greater than the width of the second module 5, and the first rotating shaft 6 is provided on both upper and lower sides of the first module 4.

As a preferred mode of the present invention, each of the whole bodies includes two second constituent modules 5 and two second rotation shafts 8, and the second constituent modules 5 are provided on both sides of the first constituent module 4 in the vertical direction.

In a preferred embodiment of the present invention, the processing device 10 includes a time chip 13, the time chip 13 performs a time measurement within one day, the time measurement of the time chip represents a solar irradiation direction, and the processing device 10 drives the first control chip 7 according to the time measurement of the time chip 13 to control the first rotation shaft 6 to rotate according to the solar irradiation direction.

As a preferred mode of the present invention, the outer curtain wall 1 refracts sunlight, the photosensitive layer 11 senses the incident direction of the refracted light to the inner curtain wall 2 through the photosensitive chip 12, and the processing device 10 drives the first control chip 7 to control the first rotating shaft 6 to selectively adjust the orientation of the first component module 4 according to the incident direction of the refracted light to the inner curtain wall 2.

As a preferred aspect of the present invention, the processing device 10 drives the second control chip 9 to control the second rotating shaft 8 to rotate according to the rotation angle of the first rotating shaft 6, and the second rotating shaft 8 drives the second component module 5 correspondingly connected to rotate.

In a preferred embodiment of the present invention, the orientation of the first component module 4 represents the irradiation direction of the sun, the processing device 10 drives the second rotating shaft 8 connected to the second component module 5 corresponding to the irradiation direction of the sun to rotate according to the orientation of the first component module 4, and the second rotating shaft 8 drives the connected second component module 5 to rotate.

In a preferred embodiment of the present invention, an air direction measuring device is disposed on a side of the net structure of the support 3, the air direction measuring device is connected to the processing device 10, and the processing device 10 drives the first control chip 7 to control the first rotating shaft 6 to rotate according to the air direction measured by the air direction measuring device.

In a preferred embodiment of the present invention, the processing device 10 drives the first control chip 7 to control the first rotating shaft 6 to rotate the first component module 4 inward on the side close to the wind direction, the processing device 10 drives the second control chip 9 to control the second rotating shaft 8 on the side far from the wind direction to rotate, and the second rotating shaft 8 controls the connected second component module 5 to rotate outward.

As a preferable mode of the present invention, the solar energy collecting device further comprises a solar panel 14 and a ventilation duct, wherein the solar panel 14 is used for converting sunlight into solar energy; the ventilation duct is used for ventilation.

In the specific implementation process, in each day, the processing device 10 records the time of each day according to the timing chip, and determines the position of the sun under normal conditions at this time according to the recorded time, such as the time point of initial rise of the sun, and the like, the processing device 10 drives the first control chip 7 to control the first rotating shaft 6 to rotate according to the position of the sun, and the first rotating shaft 6 gradually rotates the first component module 4 of the city curtain wall to face the direction of solar sunlight irradiation in the rotating process; further, the processing device 10 may be connected to the internet, may obtain weather information in the internet, and the processing device 10 may adjust whether to open the outer curtain wall 1 according to the weather information, that is, when weather such as rain and snow occurs, the operation of rotating the first rotating shaft 6 is not performed.

When the weather is sunny, the processing device 10 drives the first control chip 7 to control the first rotating shaft 6 to rotate by a certain angle according to the timing of the timing chip, where the angle is a preset angle, and a preset angle may be set according to the accumulated time of the timing chip, for example, at 10 points, the first rotating shaft 6 rotates to drive the first component module 4 to rotate by 30 ° along the illumination direction, at 14 points, the first rotating shaft 6 drives the first component module 4 to rotate by 30 ° along the illumination direction, and so on.

It can be explained here that since the illumination directions of 10 dots and 14 dots are different, the rotation is made along the illumination direction, that is, the rotation is made around different directions. When first rotation axis 6 drives first component module 4 and rotates the angle that corresponds to the current time, because the refraction of light, sunshine can take place the refraction when the surface of the first component module 4 who shines, and the refracted light can be followed first component module 4 and incided the surface of inlayer curtain wall 2, and inlayer curtain wall 2 can receive the incident refracted light, is provided with solar panel 14 on the inlayer curtain wall 2, and solar panel 14 absorbs the refracted light and changes into solar energy.

When absorbing solar energy, the absorption and conversion are optimal when the sunlight is directly incident on the direction, and therefore, the first rotating shaft 6 needs to be controlled to rotate to an optimal position. At this time, the light sensing chip 12 in the light sensing layer 11 of the inner curtain wall 2 senses the intensity of the refracted light, as can be seen from the theorem, when the light rays are right opposite, the received light intensity is the largest when the light rays are irradiated, therefore, when the refracted light rays are right opposite to the photosensitive chip 12, the light intensity is the largest when the refracted light rays are incident to the inner curtain wall 2, the absorbed solar energy is the largest, therefore, the first processing device 10 drives the first control chip 7 to control the first rotating shaft 6 to rotate, when the first rotating shaft 6 rotates, the light sensing chip 12 continuously judges the intensity of the refracted light incident to the inner curtain wall 2, when the light sensing chip 12 judges that the light intensity of the light refracted by the curtain wall is smaller and smaller as the first control chip 7 controls the first rotating shaft 6 to rotate, the processing device 10 drives the first control chip 7 to drive the first rotating shaft 6 to rotate in the direction opposite to the rotating direction at the time when the direction of rotation of the first rotating shaft 6 is determined to be the decreasing direction.

When the light intensity of the refracted light of the curtain wall is judged to be larger and larger along with the rotation of the first rotating shaft 6 controlled by the first control chip 7 by the photosensitive chip 12, the rotating direction of the first rotating shaft 6 is judged to be the enhancing direction, the rotation of the first rotating shaft 6 is continued until the light intensity is instantaneously judged to be reduced by the photosensitive chip 12, the rotating position of the first rotating shaft 6 is judged to be the position where the refracted light directly irradiates the inner curtain wall 2, and the processing device 10 drives the first control chip 7 to control the first rotating shaft 6 to stop rotating. At this time, according to the direction of the first component module 4 irradiated by sunlight, the processing device 10 drives the second control chip 9 corresponding to the second rotating shaft 8 connected to the second component module 5 far away from the direction of the irradiation by sunlight to control the second rotating shaft 8 to rotate, so as to drive the second component module 5 to rotate, the rotating direction of the second component module 5 is opposite to the rotating direction of the first rotating shaft 6, and the value of the rotating angle of the second rotating shaft 8 is consistent with the value of the rotating angle of the first rotating shaft 6.

With the advance of timing of the timing chip, the angle of the sun incident to the first component module 4 is changed, in the changing process, the angle of the refracted light refracted by the first component module 4 incident to the inner curtain wall 2 is changed, and in the changing process, the first component module 4 and the second component module 5 are controlled to be changed through the steps; it is worth mentioning that when the time is over from morning to afternoon, the incident angle of the sunlight is changed to the opposite direction, and the controlled second rotating shaft 8 and the second constituent module 5 are at the other end of the first constituent module 4.

Furthermore, when the wind is strong, the processing device 10 directly drives the first control chip 7 to control the first rotating shaft 6 to rotate towards the inner side according to the wind direction measured by the wind direction measuring device, and simultaneously drives the second control chip 9 to control the second rotating shaft 8 to rotate towards the outer side, thereby forming a surface capable of guiding the wind.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a multi-functional intelligent building curtain based on new forms of energy which characterized in that: the curtain wall comprises an outer curtain wall layer, an inner curtain wall layer and a support, wherein the support is latticed;

the outer curtain wall comprises a first component module and a second component module which form the outer curtain wall, a plurality of first rotating shafts, a plurality of first control chips, a plurality of second rotating shafts, a plurality of second control chips and a processing device, wherein the first component module and the second component module are connected through the second rotating shafts, the first component module and the second component module form a whole, the first rotating shafts are arranged in the middle positions of the upper side and the lower side of the whole, the first rotating shafts are connected to the bracket, and the first control chips are connected with the second control chips and are respectively connected with the processing device;

the inner curtain wall comprises a photosensitive layer and a photosensitive chip, the photosensitive chip is arranged on the photosensitive layer and is connected with the processing device, the photosensitive chip senses the angle of sunlight irradiating the inner curtain wall, and the processing device drives the first control chip and the second control chip to adjust the form of the outer curtain wall according to the angle of the sunlight irradiating the inner curtain wall sensed by the photosensitive chip;

the utility model discloses a wind direction measuring device, including first component module, first rotation axis, processing apparatus, first control chip, processing apparatus, the network structure side of support is provided with wind direction measuring device, wind direction measuring device connects processing apparatus, processing apparatus is according to the wind direction drive that wind direction measuring device measured first control chip control first rotation axis is rotatory, processing apparatus drive first control chip control first rotation axis will one side that first component module is close the wind direction is inwards rotated, processing apparatus drive second control chip control keeps away from the second rotation axis rotation of one side of wind direction, second rotation axis control connection the outside rotation of second component module.

2. The multifunctional intelligent building curtain wall based on new energy resources is characterized in that: the length of the first component module is consistent with that of the second component module, the width of the first component module is larger than that of the second component module, and the first rotating shaft is arranged on the upper side and the lower side of the first component module.

3. The multifunctional intelligent building curtain wall based on new energy resources is characterized in that: each integral body comprises two second assembly modules and two second rotating shafts, wherein the second assembly modules are arranged on two sides of the first assembly module in the vertical direction.

4. The multifunctional intelligent building curtain wall based on new energy resources is characterized in that: the processing device comprises a time chip, the time chip performs timing within one day, the timing of the time chip represents the solar irradiation direction, and the processing device drives the first control chip to control the first rotating shaft to rotate according to the solar irradiation direction according to the timing of the time chip.

5. The multifunctional intelligent building curtain wall based on new energy resources is characterized in that: the outer curtain wall refracts sunlight, the photosensitive layer senses the incident direction of refracted light incident to the inner curtain wall through the photosensitive chip, and the processing device drives the first control chip to control the first rotating shaft to selectively adjust the orientation of the first component module according to the incident direction of the refracted light on the inner curtain wall.

6. The multifunctional intelligent building curtain wall based on new energy resources is characterized in that: the processing device drives the second control chip to control the second rotating shaft to rotate according to the rotating angle of the first rotating shaft, and the second rotating shaft drives the second assembly module which is correspondingly connected to rotate.

7. The multifunctional intelligent building curtain wall based on new energy resources is characterized in that: the orientation of the first composition module represents the irradiation direction of the sun, the processing device drives a second rotating shaft connected with a second composition module corresponding to the irradiation direction of the sun to rotate according to the orientation of the first composition module, and the second rotating shaft drives the connected second composition module to rotate.

8. The multifunctional intelligent building curtain wall based on new energy resources is characterized in that: the solar energy collecting device also comprises a solar panel and a ventilating duct, wherein the solar panel is used for converting sunlight into solar energy; the ventilation duct is used for ventilation.