CN114263299B - Energy-saving light control curtain wall structure - Google Patents

Abstract

The application relates to an energy-conserving accuse light curtain wall structure relates to the field of building curtain, and it includes the wall body, be equipped with four supporting seats on the wall body, four the supporting seat is the line formation rectangle in proper order, and two adjacent it has the light modulation board to articulate on the supporting seat, be equipped with drive light modulation board pivoted first drive assembly on the supporting seat. The light in the building is adjusted to this application, and then brightness and temperature in the regulation building reach energy saving and emission reduction's effect, and when four light modulation boards open simultaneously, can form petal shape, promotes the effect of the pleasing to the eye degree of curtain.

Description

Energy-saving light control curtain wall structure

Technical Field

The application relates to the field of building curtain walls, in particular to an energy-saving light control curtain wall structure.

Background

The curtain wall is an outer wall enclosure of a building, is not bearing, is hung like a curtain, is also called as a curtain wall, and is a light wall with a decorative effect commonly used in modern large-scale and high-rise buildings. The building outer wall frame type supporting system consists of a panel and a supporting structure system, can have certain displacement capacity or certain deformation capacity relative to a main body structure, and does not bear the building outer wall frame type supporting structure or decorative structure acted by the main body structure (the outer wall frame type supporting system is also one of curtain wall systems).

The common curtain wall is easy to shield walls or windows made of light-transmitting materials while being decorated, so that indoor light is poor.

Disclosure of Invention

In order to improve the above problems, the present application provides an energy-saving light-controlling curtain wall structure.

The application provides an energy-conserving accuse light curtain wall structure adopts following technical scheme:

the utility model provides an energy-conserving accuse light curtain wall structure, includes the wall body, be equipped with four supporting seats on the wall body, four the supporting seat is the line formation rectangle in proper order, and two adjacent it has the light modulation board to articulate on the supporting seat, be equipped with drive light modulation board pivoted first drive assembly on the supporting seat.

Through above-mentioned technical scheme, first drive assembly drives the rotation of light modulation board, adjusts the light that gets into in the building, and then adjusts luminance and the temperature in the building, reaches energy saving and emission reduction's effect. And when the four dimming plates are unfolded, petal shapes can be formed, and the attractiveness of the curtain wall is improved.

Optionally, a fixed ring is arranged on the wall, the four supporting seats are all positioned in the fixed ring, a sliding rod is arranged on the supporting seats, the sliding rod penetrates through the fixed ring, and a second driving assembly for driving the sliding rod to move is arranged on the fixed ring;

the light adjusting plate is characterized in that the supporting seat is rotationally connected with a rotating block, a rotating shaft is arranged on the light adjusting plate and is rotationally connected with the rotating block, and the first driving assembly is arranged on the rotating block.

Through above-mentioned technical scheme, the second driving piece is convenient for drive sliding rod and removes for the position of supporting seat changes, and then cooperates the light modulation board to demonstrate different shapes, promotes the variety of curtain. The fixing ring is convenient for further improving the aesthetic property, and is equivalent to a flower disc, and petals formed by the fixing ring and the light modulation plate are mutually reflected and set off.

Optionally, the first drive assembly includes first motor, first external gear and second external gear, first motor fixed connection is on the turning block, first external gear coaxial arrangement is on the output shaft of first motor, the second external gear coaxial arrangement is on the axis of rotation, first external gear and second external gear meshing.

Through above-mentioned technical scheme, first motor rotates and drives first external gear and rotate, and first external gear drives the rotation of second external gear, and the second external gear then drives the axis of rotation and rotates, and then drives the light modulation board and rotate to change different angles, control the light that gets into in the building, and then temperature and luminance in the control building. Meanwhile, motor control is adopted, so that the control is convenient to carry out indoors.

Optionally, the second drive assembly includes second motor, third external gear and first rack, the fixed ring is located to the second motor, the third external gear is located on the output shaft of second motor coaxially, the first rack is located on the sliding rod, third external gear and first rack meshing.

Through above-mentioned technical scheme, during operation, the second motor starts, drives the rotation of third external gear, and the third external gear drives first rack again and removes, and then drives the slide bar and remove, is convenient for adjust the position of supporting seat, and then changes the relative position of light modulation board.

Optionally, an optical sensor is arranged on the wall body, and the optical sensor is electrically connected with the first motor.

Through above-mentioned technical scheme, the outdoor light intensity of light sensor convenient to detect, when light intensity is higher, then control the light modulation board and rotate, reduce the light that gets into the building, if light intensity is lower, then increase the light that gets into the building for luminance and temperature in the building are comparatively suitable all the time, reduce the use of light and cold and warm air, in order to promote energy-concerving and environment-protective.

Optionally, the second drive assembly includes internal gear, fourth external gear, second rack and third motor, internal gear and solid fixed ring coaxial line, just internal gear and solid fixed ring rotate to be connected, the third motor is fixed in on the wall body, fourth external gear is coaxial to be located on the output shaft of third motor, fourth external gear and internal gear meshing, the second rack is located on the sliding bar, fourth external gear and second rack meshing, the last rotation of wall body is connected with fifth external gear, fifth external gear and internal gear meshing, fifth external gear is equipped with three, every fifth external gear and a second rack meshing.

Through the technical scheme, when the third motor rotates, the fourth outer gear is driven to rotate, the fourth outer gear drives the inner gear to rotate, and then three fifth gears are driven to rotate, and then the three fifth gears drive three second racks to move, and meanwhile, the fourth gear also drives one second rack to move, so that synchronous movement of four sliding rods is realized, and the relative position of the light adjusting plate is convenient to adjust better.

Optionally, the second driving assembly comprises a sixth external gear, the sixth external gear is arranged on the rotating block, the third rack is in sliding connection with the supporting seat, a fourth rack is arranged on the third rack, a seventh external gear is rotationally connected on the supporting seat, the seventh external gear is meshed with the fourth rack, and the seventh external gear is connected with the rotating shaft through a connecting piece.

Through the technical scheme, when the supporting seat moves, the rotating block rotates relatively to the supporting seat, so that the sixth external gear drives the third rack to move, the third rack drives the fourth rack to move, the fourth rack drives the seventh external gear to rotate, and then the connecting piece drives the light adjusting plate to rotate, and the light adjusting plate is driven to rotate in the moving process of the supporting seat, so that the flower opening or flower closing effect is formed.

Optionally, the connecting piece includes universal joint, universal joint's one end is connected with the axis of rotation, and the other end is connected with seventh external gear.

Through the technical scheme, the universal coupling is convenient for not influencing the transmission of the rotating shaft and the seventh external gear when the axes of the rotating shaft and the seventh external gear deviate.

Optionally, set up the photovoltaic board on the light modulation board, be equipped with the battery in the wall body, the photovoltaic board is connected with the battery electricity, the battery is used for supplying power for first drive assembly and second drive assembly.

Through above-mentioned technical scheme, the solar energy is convenient for absorb by photovoltaic board, and in converting electric energy storage and the battery, the battery then is convenient for supply power for first drive assembly and second drive assembly, the energy saving. Meanwhile, the first driving assembly and the second driving assembly can also adjust the position and the angle of the light modulation plate, so that the efficiency of light energy absorption of the photovoltaic plate is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

through the arrangement of the supporting seat, the light adjusting plates and the first driving component, the light entering the building is adjusted, so that the brightness and the temperature in the building are adjusted, the effects of energy conservation and emission reduction are achieved, and simultaneously, when the four light adjusting plates are opened, petal shapes can be formed, and the attractiveness of the curtain wall is improved;

through the setting of light sensor, be convenient for detect outdoor light intensity, when light intensity is higher, then control the light modulation board and rotate, reduce the light that gets into the building, if light intensity is lower, then increase the light that gets into the building for luminance and temperature in the building are comparatively suitable all the time, reduce the use of light and cold and warm air, in order to promote energy-concerving and environment-protective.

Drawings

Fig. 1 is a schematic view showing the overall structure in embodiment 1 of the present application.

Fig. 2 is a partial enlarged view of the portion a in fig. 1.

Fig. 3 is a schematic structural view showing a second driving assembly in embodiment 1 of the present application.

Fig. 4 is a schematic view showing the overall structure in embodiment 2 of the present application.

Fig. 5 is a partial enlarged view of the portion B in fig. 4.

Fig. 6 is a schematic structural view showing a first driving assembly in embodiment 2 of the present application.

Reference numerals illustrate: 1. a wall body; 2. a fixing ring; 3. a sliding rod; 4. a support base; 41. a rotating block; 411. a driving rod; 412. a fixing plate; 42. a light modulating plate; 421. a rotating shaft; 43. a first drive assembly; 431. a first motor; 432. a second external gear; 433. a first external gear; 434. a sixth external gear; 435. a third rack; 436. a fourth rack; 437. a work plate; 438. a rotating rod; 4381. a seventh external gear; 439. a universal coupling; 44. a second drive assembly; 441. a second motor; 442. a support plate; 443. a third external gear; 444. a first rack; 445. an internal gear; 446. a fourth external gear; 447. a second rack; 448. a third motor; 449. and a fifth external gear.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-6.

Example 1:

the application discloses energy-conserving accuse light curtain wall structure. Referring to fig. 1 and 2, an energy-saving light control curtain wall structure comprises a wall body 1, wherein a fixed ring 2 is fixedly connected to the wall body 1, four sliding rods 3 are arranged in the fixed ring 2 in a penetrating manner, the four sliding rods 3 are arranged along a circumferential array of the fixed ring 2, and a second driving assembly 44 for driving the sliding rods 3 to slide is arranged on the fixed ring 2. The part of the sliding rod 3 in the fixed ring 2 is fixedly connected with a supporting seat 4, and the connecting line of the four supporting seats 4 forms a rectangle. The support seat 4 is rotationally connected with a rotating block 41, the rotating block 41 is rotationally connected with a rotating shaft 421, the rotating shaft 421 is fixedly connected with a dimming plate 42, the dimming plate 42 is rotationally connected with the rotating block 41 on the adjacent support seat 4 through the rotating shaft 421, and the rotating block 41 is provided with a first driving component 43 for driving the rotating shaft 421 to rotate.

Referring to fig. 3, the second driving assembly 44 includes a second motor 441, a third external gear 443, and a first rack 444, the support plate 442 is fixedly connected in the fixed ring 2, the second motor 441 is fixedly connected to the support plate 442, the third external gear 443 is coaxially fixed to an output shaft of the second motor 441, the first rack 444 is fixed to the sliding rod 3 along a length direction of the sliding rod 3, and the third external gear 443 is meshed with the first rack 444. When the light adjusting device works, the second motor 441 is started to drive the third external gear 443 to rotate, the third external gear 443 drives the first rack 444 to move, and then drives the sliding rod 3 to move, so that the position of the supporting seat 4 is convenient to adjust, and the relative position of the light adjusting plate 42 is changed, so that the connecting line of the four supporting seats 4 can be changed into a diamond shape. The second driving assembly 44 is provided with two groups, and the two groups of second driving assemblies 44 are arranged on the two rotating blocks 41 which are oppositely arranged, and when the two opposite supporting seats 4 move, the other two supporting seats 4 can be driven to move.

Referring to fig. 2, the first driving assembly 43 includes a first motor 431, a first external gear 433 and a second external gear 432, the first motor 431 is fixedly coupled to the rotary block 41, the first external gear 433 is coaxially fixed to an output shaft of the first motor 431, the second external gear 432 is coaxially fixed to the rotary shaft 421, and the first external gear 433 is engaged with the second external gear 432. When the light adjusting device works, the first motor 431 rotates to drive the first external gear 433 to rotate, the first external gear 433 drives the second external gear 432 to rotate, the second external gear 432 drives the rotating shaft 421 to rotate, and then the light adjusting plate 42 is driven to rotate, so that different angles can be changed, light entering a building can be controlled, and the temperature and the brightness in the building can be controlled.

The wall 1 is fixedly connected with a light sensor for detecting outdoor light intensity, and the light sensor is electrically connected with the first motor 431. The light sensor may employ an illumination sensor. The surface of the light modulation plate 42 is fixedly connected with a photovoltaic plate, a storage battery is fixed in the wall body 1, the photovoltaic plate is convenient for absorbing light energy and converting the light energy into electric energy to be stored in the storage battery, and the storage battery is electrically connected with the first motor 431 and the second motor 441 so as to supply power for the first motor 431 and the second motor 441. The position and angle of the light modulation plate 42 can be adjusted conveniently to enable the photovoltaic plate to obtain a better illumination angle, so that the light energy absorption capacity is improved.

The implementation principle of the energy-saving light control curtain wall structure of the embodiment 1 of the application is as follows: during operation, the light sensor detects outdoor light intensity, when the light intensity is higher, then sends the signal to the first motor 431, and the first motor 431 controls the light modulation board 42 to rotate, reduces the light that gets into the building, if the light intensity is lower, then increases the light that gets into the building for luminance and temperature in the building are comparatively suitable all the time, reduce light and the use of cold and warm air, in order to promote energy-concerving and environment-protective.

Example 2:

referring to fig. 4 and 5, the second driving assembly 44 is different from embodiment 1 in that it includes an internal gear 445, a fourth external gear 446, a second rack 447, and a third motor 448, the internal gear 445 is coaxial with the fixed ring 2, and the internal gear 445 is rotatably connected with the fixed ring 2. The third motor 448 is fixedly connected to the wall 1, the fourth external gear 446 is coaxially fixed to an output shaft of the third motor 448, and the fourth external gear 446 is meshed with the internal gear 445. The second rack 447 is fixedly coupled to the slide rod 3 along the length direction of the slide rod 3, and the fourth external gear 446 is simultaneously engaged with the second rack 447. The wall 1 is rotatably connected with 449, 449 is meshed with the internal gear 445, three 449 are arranged, and each 449 is meshed with one second rack 447. The fourth outer gear 446 mates with 449 such that each second rack 447 has one fourth or fifth gear 449 engaged.

When the light adjusting plate works, the third motor 448 rotates to drive the fourth outer gear 446 to rotate, the fourth outer gear 446 drives the inner gear 445 to rotate and then drives the three fifth gears 449 to rotate, the three fifth gears 449 drive the three second racks 447 to move, and meanwhile, the fourth gear also drives one second rack 447 to move, so that the synchronous movement of the four sliding rods 3 is realized, and the relative position of the light adjusting plate 42 is convenient to adjust better. In operation, the two opposing slipping bars 3 move away from each other or relative to each other, and when one pair of slipping bars 3 moves towards the axis of the stationary ring 2, the other set of slipping bars 3 moves away from the axis of the stationary ring 2.

Referring to fig. 6, the rotating block 41 includes a driving rod 411 and a fixing plate 412, the driving rod 411 is rotatably connected with the supporting seat 4, the fixing plate 412 is fixed on the driving rod 411, and the fixing plate 412 is rotatably connected with the rotating shaft 421. The second driving assembly 44 includes a sixth external gear 434 and a fourth rack gear 436, the sixth external gear 434 is coaxially fixed to the driving rod 411, the third rack gear 435 is slidably connected to the support base 4, and the sixth external gear 434 is engaged with the third rack gear 435. The third rack 435 is fixedly connected with a fourth rack 436, the supporting seat 4 is fixedly connected with a working plate 437, the working plate 437 is rotationally connected with a rotating rod 438, the rotating rod 438 is coaxially fixed with a seventh external gear 4381, and the seventh external gear 4381 is meshed with the fourth rack 436. The rotating rod 438 is provided with a connecting member, the connecting member comprises a universal coupling 439, one end of the universal coupling 439 is fixedly connected with the rotating shaft 421, and the other end of the universal coupling 439 is fixedly connected with the seventh external gear 4381.

When the support seat 4 moves, the rotating block 41 rotates relatively to the support seat 4, so that the sixth external gear 434 drives the third rack 435 to move, the third rack 435 drives the fourth rack 436 to move, the fourth rack 436 drives the seventh external gear 4381 to rotate, and the rotating shaft 421 is driven to rotate by the universal coupling 439, so as to drive the light modulation plate 42 to rotate. The rotation of the light modulation plate 42 is realized in the process of moving the supporting seat 4, so that the flower opening or flower closing effect is formed. Meanwhile, the third motor 448 is only adopted as a driving source to realize multiple movements, so that energy sources are saved.

The battery is electrically connected to the third motor 448 to facilitate powering the third motor 448.

The implementation principle of the energy-saving light control curtain wall structure of the embodiment 1 of the application is as follows: when the sliding rod 3 is in operation, the third motor 448 rotates to drive the fourth outer gear 446 to rotate, the fourth outer gear 446 drives the inner gear 445 to rotate and then drives the three fifth gears 449 to rotate, the three fifth gears 449 drive the three second racks 447 to move, and meanwhile, the fourth gear also drives one second rack 447 to move, so that the four sliding rods 3 can synchronously move. When the support seat 4 moves, the rotating block 41 rotates relatively to the support seat 4, so that the sixth external gear 434 drives the third rack 435 to move, the third rack 435 drives the fourth rack 436 to move, the fourth rack 436 drives the seventh external gear 4381 to rotate, and the rotating shaft 421 is driven to rotate by the universal coupling 439, so as to drive the light modulation plate 42 to rotate.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (3)

1. An energy-conserving accuse light curtain wall structure, its characterized in that: the light-adjusting device comprises a wall body (1), wherein four supporting seats (4) are arranged on the wall body (1), the four supporting seats (4) are sequentially connected to form a rectangle, two adjacent supporting seats (4) are hinged with light-adjusting plates (42), and a first driving assembly (43) for driving the light-adjusting plates (42) to rotate is arranged on each supporting seat (4); the wall body (1) is provided with a fixed ring (2), four supporting seats (4) are all positioned in the fixed ring (2), the supporting seats (4) are provided with sliding rods (3), the sliding rods (3) penetrate through the fixed ring (2), and the fixed ring (2) is provided with a second driving assembly (44) for driving the sliding rods (3) to move; the light adjusting device is characterized in that a rotating block (41) is rotatably connected to the supporting seat (4), a rotating shaft (421) is arranged on the light adjusting plate (42), the rotating shaft (421) is rotatably connected with the rotating block (41), and the first driving component (43) is arranged on the rotating block (41); the second driving assembly (44) comprises an inner gear (445), a fourth outer gear (446), a second rack (447) and a third motor (448), wherein the inner gear (445) is coaxial with the fixed ring (2), the inner gear (445) is rotationally connected with the fixed ring (2), the third motor (448) is fixed on the wall body (1), the fourth outer gear (446) is coaxially arranged on an output shaft of the third motor (448), the fourth outer gear (446) is meshed with the inner gear (445), the second rack (447) is arranged on the sliding rod (3), the fourth outer gear (446) is meshed with the second rack (447), a fifth outer gear (449) is rotationally connected on the wall body (1), the fifth outer gear (449) is meshed with the inner gear (445), and three outer gears (449) are arranged, and each fifth outer gear (449) is meshed with one second rack (447); the first driving assembly (43) comprises a sixth external gear (434) and a third rack (435), the sixth external gear (434) is arranged on the rotating block (41), the third rack (435) is slidably connected with the supporting seat (4), a fourth rack (436) is arranged on the third rack (435), a seventh external gear (4381) is rotationally connected on the supporting seat (4), the seventh external gear (4381) is meshed with the fourth rack (436), and the seventh external gear (4381) is connected with the rotating shaft (421) through a connecting piece; the connecting piece comprises a universal coupling (439), one end of the universal coupling (439) is connected with the rotating shaft (421), and the other end of the universal coupling is connected with the seventh external gear (4381).

2. The energy-saving and light-controlling curtain wall structure according to claim 1, wherein: the wall body (1) is provided with an optical sensor, and the optical sensor is electrically connected with the first motor (431).

3. The energy-saving and light-controlling curtain wall structure according to claim 1, wherein: the dimming board (42) is provided with a photovoltaic board, a storage battery is arranged in the wall body (1), the photovoltaic board is electrically connected with the storage battery, and the storage battery is used for supplying power to the first driving assembly (43) and the second driving assembly (44).

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