CN220725579U - Multifunctional steel structure energy-saving light Fu Guangpeng - Google Patents

Abstract

The application relates to the field of light sheds, in particular to a multifunctional steel structure energy-saving light Fu Guangpeng, which comprises a steel frame and a plurality of glass plates, wherein the glass plates are arranged on the steel frame; the glass plate is divided into a colored glaze layer, a photovoltaic layer and a glue-clamping layer, wherein the colored glaze layer is composed of a plurality of colored glaze glasses, the photovoltaic layer is composed of a plurality of photovoltaic glasses, the glue-clamping layer is composed of a plurality of hollow glue-clamping glasses, the colored glaze layer is surrounded by the photovoltaic layer, and the glue-clamping layer is surrounded by the photovoltaic layer. The utility model provides a function that has increased the light canopy makes the effect of light canopy make full use of building space.

Description

Multifunctional steel structure energy-saving light Fu Guangpeng

Technical Field

The application relates to the field of light sheds, in particular to a multifunctional steel structure energy-saving photovoltaic light shed.

Background

The light shed is a building assembly structure with the functions of shielding rain, keeping out wind, preventing high-altitude falling objects and the like, and is usually arranged at the tops of an atrium, an entrance and a balcony of a building so as to increase the permeability and the lighting property of the building.

In the prior art, the light shed generally comprises a steel frame and a plurality of laminated glass plates, wherein the steel frame is fixedly arranged on a bearing frame of a building, and the plurality of laminated glass plates are fixedly paved and arranged on the steel frame so as to be convenient for wind shielding, high-altitude falling prevention and the like.

According to the related technology, the functions of wind shielding, high-altitude object falling prevention and the like are realized through the plurality of laminated glass, so that the functions of the light shed are limited, and the building space is difficult to fully utilize.

Disclosure of Invention

In order to increase the function of the light shed, make full use of building space of the light shed, the application provides a multifunctional steel structure energy-saving photovoltaic light shed.

The application provides a multi-functional steel construction energy-conserving photovoltaic light canopy adopts following technical scheme:

the multifunctional steel structure energy-saving photovoltaic light shed comprises a steel frame and a plurality of glass plates, wherein the glass plates are arranged on the steel frame; the glass plate is divided into a colored glaze layer, a photovoltaic layer and a glue-clamping layer, wherein the colored glaze layer is composed of a plurality of colored glaze glasses, the photovoltaic layer is composed of a plurality of photovoltaic glasses, the glue-clamping layer is composed of a plurality of hollow glue-clamping glasses, the colored glaze layer is surrounded by the photovoltaic layer, and the glue-clamping layer is surrounded by the photovoltaic layer.

By adopting the technical scheme, a plurality of colored glazed glasses form a specific pattern, so that the ornamental value of the light shed is increased, and the illumination condition is fully utilized; the photovoltaic glass generates electric energy by utilizing illumination, so that the electric energy consumed by a building from a power plant is reduced, the building is facilitated, the environment is protected, the function of the light shed is increased, and the building space is fully utilized by the light shed. The colored glaze layer, the photovoltaic layer and the adhesive-sandwiched layer are sequentially surrounded, so that the aesthetic feeling of gradual change is generated, the generated temperature stress of a plurality of colored glaze glasses, a plurality of photovoltaic glasses and a plurality of hollow adhesive-sandwiched glasses with different thermal expansion coefficients is evenly released under the action of illumination, and the occurrence of the damage of the multifunctional steel structure energy-saving photovoltaic photo-shed due to the temperature stress in the use process is reduced.

Optionally, the two adjacent glass plates are connected through a first foam rod and weather-proof sealant, the first foam rod is arranged between the two adjacent glass plates, the weather-proof sealant is filled between the first foam rod and the two adjacent glass plates, and the first foam rod is positioned at the bottom of the weather-proof sealant.

Through adopting above-mentioned technical scheme, through first foam stick and weather-proof sealant flexonics between the two adjacent glass boards, guaranteed the leakproofness between the two adjacent glass boards promptly, guaranteed the release of the production temperature stress of a plurality of glass boards under the illumination effect again, further reduced the emergence of the condition that the energy-conserving photovoltaic light canopy of multi-functional steel construction damaged because of temperature stress in the use. In addition, the first foam rod is positioned at the bottom of the weather-proof sealant, so that when the weather-proof sealant is filled, the first foam rod provides support for the weather-proof sealant, and the weather-proof sealant flowing around is reduced.

Optionally, a plurality of adjusting components are arranged at the top of the steel frame, the plurality of adjusting components are respectively and correspondingly arranged between every two adjacent glass plates, each adjusting component comprises two sliding rods, two locking plates and locking bolts, the two sliding rods are respectively arranged at the bottoms of the two adjacent glass plates, the two sliding rods are arranged in parallel, an adjusting groove is formed in one side, close to the other sliding rod, of each sliding rod, and the adjusting groove extends along the horizontal direction;

the both sides of locking plate respectively slide the cooperation in each adjustment tank, locking plate is worn to locate in locking bolt's one end, a plurality of connecting pipes are installed at steel frame's top, and a plurality of the connecting pipes correspond the setting with each locking bolt respectively, the connecting pipe sets up along vertical direction, locking bolt wears to locate locking plate's one end screw thread to cooperate in the connecting pipe.

Through adopting above-mentioned technical scheme, when two adjacent glass boards take place to warp or the displacement because of external force effect or self temperature stress, two sliding rods take place the displacement along with two glass boards respectively, and then will dry glass board under the production temperature stress release of illumination effect, further reduced the emergence of the condition that the energy-conserving photovoltaic light canopy of multi-functional steel construction damaged because of temperature stress in the use.

Optionally, the installation base is installed at the top of steel frame, the top of installation base slides and cooperates there are two sliding blocks, two sliding blocks correspond respectively and set up in each sliding rod, one side top-down of sliding rod supports the top of tightly sliding block, just be provided with the gap between sliding rod and the installation base.

By adopting the technical scheme, when the sliding rod moves along with the glass plate, the sliding rod and the sliding block move relatively, so that the friction resistance encountered when the sliding rod moves is reduced, and the temperature stress generated under the action of illumination is released by a plurality of glass plates; the sliding block is matched with the bottom of the mounting base in a sliding way, so that the displacement of the sliding rod is more controllable, and the occurrence of the damage of the multifunctional steel structure energy-saving photovoltaic light shed due to overlarge displacement of the sliding rod is reduced.

Optionally, the glass board is installed in the top of sliding rod through structural adhesive and two-sided subsides, two-sided subsides are close to the junction setting between the two adjacent glass boards, just structural adhesive keeps away from the junction setting between the two adjacent glass boards.

Through adopting above-mentioned technical scheme, glass board and slide bar pass through structural adhesive and two-sided flexible mounting in the top of slide bar, have guaranteed the release of the production temperature stress of a plurality of glass boards under the illumination effect, have still further reduced the emergence of the condition that the energy-conserving photovoltaic light canopy of multi-functional steel construction damaged because of temperature stress in the use.

Optionally, the device further comprises a drainage canal, wherein the drainage canal comprises a plurality of stainless steel water tanks, the stainless steel water tanks are sequentially connected end to end, two adjacent stainless steel water tanks are connected through a second foam rod and silicone sealant, the second foam rod is positioned between the two adjacent stainless steel water tanks, the silicone sealant is filled between the second foam rod and the two adjacent stainless steel water tanks, and the silicone sealant is arranged away from a cavity of the stainless steel water tank.

Through adopting above-mentioned technical scheme, through second foam stick and silicone sealant looks flexonics between two adjacent stainless steel water tanks for the deformation and the stress that the stainless steel water tank produced under the illumination effect are further fully released, have further reduced the emergence of the circumstances of basin damage.

Optionally, the stainless steel water tank is provided with a plurality of angle yards, a plurality of wherein one end of angle yards is all fixed mounting in the bottom of stainless steel water tank, a plurality of the other end of angle yards is all fixed mounting in the steel frame, just be provided with the gap between the bottom of stainless steel water tank and the steel frame.

By adopting the technical scheme, the gap is arranged between the stainless steel water tank and the steel frame, so that the deformation and stress generated by the stainless steel water tank under the action of illumination are further fully released, and the occurrence of the damage condition of the water tank is further reduced.

Optionally, one end of the corner bracket far away from the stainless steel water tank is mounted on the steel frame through a self-tapping bolt.

Through adopting above-mentioned technical scheme, when installing stainless steel basin, screw up fixed mounting in steel frame with the angle sign indicating number through self-tapping bolt, and then reduced stainless steel basin's the installation degree of difficulty.

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

1. the colored glazed glass forms a specific pattern, so that the ornamental value of the light shed is increased, and the illumination condition is fully utilized; the photovoltaic glass generates electric energy by utilizing illumination, so that the electric energy consumed by a building from a power plant is reduced, the building is facilitated, the environment is protected, the function of the light shed is increased, and the building space is fully utilized by the light shed. The colored glaze layer, the photovoltaic layer and the adhesive-sandwiched layer are sequentially surrounded, so that the aesthetic feeling of gradual change is generated, the generated temperature stress of a plurality of colored glaze glasses, a plurality of photovoltaic glasses and a plurality of hollow adhesive-sandwiched glasses with different thermal expansion coefficients is evenly released under the action of illumination, and the occurrence of the damage of the multifunctional steel structure energy-saving photovoltaic photo-shed due to the temperature stress in the use process is reduced.

2. When the sliding rod moves along with the glass plate, the sliding rod and the sliding block move relatively, so that friction resistance encountered when the sliding rod moves is reduced, and the temperature stress generated under the action of illumination is released by a plurality of glass plates; the sliding block is matched with the bottom of the mounting base in a sliding way, so that the displacement of the sliding rod is more controllable, and the occurrence of the damage of the multifunctional steel structure energy-saving photovoltaic light shed due to overlarge displacement of the sliding rod is reduced.

3. The two adjacent stainless steel water tanks are flexibly connected through the second foam rod and the silicone sealant, so that deformation and stress generated by the stainless steel water tanks under the action of illumination are further fully released, and the occurrence of the situation of water tank damage is further reduced.

Drawings

Fig. 1 is an overall schematic diagram of the overall structure of an embodiment of the present application.

Fig. 2 is a schematic distribution diagram of a colored glaze layer, a photovoltaic layer and a laminated layer.

Fig. 3 is a schematic cross-sectional view of the overall structure of an embodiment of the present application.

FIG. 4 is a schematic diagram showing the connection of two adjacent stainless steel drainage channels

Fig. 5 is a schematic cross-sectional view of the drain.

Reference numerals illustrate: 1. a glass plate; 11. a first foam rod; 12. weather-resistant sealant; 2. a colored glaze layer; 21. colored glaze glass; 3. a photovoltaic layer; 31. photovoltaic glass; 4. a glue layer is clamped; 41. hollow laminated glass; 5. a mounting base; 501. a slip groove; 51. a sliding block; 52. a V-shaped groove; 6. an adjustment assembly; 61. a sliding rod; 611. an adjustment tank; 612. a first protrusion; 613. double-sided plaster; 614. structural adhesive; 62. a locking plate; 621. a second protrusion; 63. a locking bolt; 7. a connecting pipe; 8. a drainage canal; 81. a stainless steel water tank; 811. a second foam rod; 812. silicone sealant; 813. an angle code; 814. self-tapping bolts.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses a multifunctional steel structure energy-saving photovoltaic photo-shed. Referring to fig. 1, the multifunctional steel structure energy-saving photovoltaic photo-booth comprises a steel frame and a plurality of glass plates 1.

Referring to fig. 1 and 2, a plurality of glass plates 1 are all arranged in a rectangular shape, and a plurality of glass plates 1 are all arranged in a horizontal direction. The glass plates 1 are divided into a colored glaze layer 2, a photovoltaic layer 3 and a glue-clamping layer 4, wherein the colored glaze layer 2 consists of a plurality of colored glaze glass 21, the photovoltaic layer 3 consists of a plurality of photovoltaic glass 31, and the glue-clamping layer 4 consists of a plurality of hollow glue-clamping glass 41. The colored glaze glass 21 forms a specific pattern, so that the ornamental value of the multifunctional steel structure energy-saving photovoltaic photo-shed is increased, and the illumination condition is fully utilized; the plurality of photovoltaic glasses 31 generate electric energy by utilizing illumination, so that the electric energy consumed by a building from a power plant is reduced, the building is facilitated, the environment is protected, the function of the multifunctional steel structure energy-saving photovoltaic photo-greenhouse is added, and the building space is fully utilized by the multifunctional steel structure energy-saving photovoltaic photo-greenhouse.

Referring to fig. 3, a first foam rod 11 and a weather-resistant sealant 12 are disposed between two adjacent glass plates 1, the first foam rod 11 is disposed in a horizontal direction, and the weather-resistant sealant 12 is filled between the first foam rod 11 and two adjacent glass plates 1. The first foam rod 11 is located at the bottom of the weather-proof sealant 12, so that when the weather-proof sealant 12 is filled, the first foam rod 11 provides support for the weather-proof sealant 12, and the difficulty of filling the weather-proof sealant 12 is reduced.

Referring to fig. 2 and 3, the colored glaze layer 2 is rectangular, the photovoltaic layer 3 is rectangular annular, the photovoltaic layer 3 and the colored glaze layer 2 are concentrically arranged around the colored glaze layer 2, the adhesive clamping layer 4 is rectangular annular, and the adhesive clamping layer 4 is concentrically arranged around the photovoltaic layer 3, namely, the colored glaze layer 2, the photovoltaic layer 3 and the adhesive clamping layer 4 are sequentially concentrically arranged around each other, so that the generated temperature stress of a plurality of colored glaze glasses 21, a plurality of photovoltaic glasses 31 and a plurality of hollow adhesive clamping glasses 41 with different thermal expansion coefficients is uniformly released under the action of illumination, and the occurrence of the damage of the multifunctional steel structure energy-saving photovoltaic light shed due to the temperature stress in the use process is reduced.

Referring to fig. 3, the top of the steel frame is fixedly connected with a mounting base 5 in an adhering manner, sliding grooves 501 are formed in the top of the mounting base 5, and two sliding grooves 501 are formed. Both the two sliding grooves 501 are disposed in the horizontal direction, and the two sliding grooves 501 are disposed in parallel. The sliding block 51 is arranged in the sliding groove 501, and the bottom of the sliding block 51 is in sliding fit with the sliding groove 501. The top of the sliding block 51 is arranged in the sliding groove 501 in a protruding mode, a plurality of V-shaped grooves 52 are formed in the top of the sliding block 51, and the V-shaped grooves 52 are distributed in the horizontal direction.

Referring to fig. 3, a plurality of adjusting assemblies 6 are provided at the top of the sliding block 51, and the plurality of adjusting assemblies 6 are respectively and correspondingly provided between the adjacent glass plates 1. The adjusting assembly 6 comprises two sliding rods 61, two locking plates 62 and two locking bolts 63, wherein the sliding rods 61 are respectively and correspondingly arranged on two adjacent glass plates 1, and the two sliding rods 61 are arranged in parallel. One side of the sliding rod 61 is tightly fitted to the top of the sliding block 51 so as to reduce friction force when the sliding rod 61 slides through the V-shaped groove 52. An adjusting groove 611 is opened at one side of the sliding bar 61 near the other sliding bar 61, and the adjusting groove 611 extends in the horizontal direction. Both ends of the locking plate 62 are slidably fitted in the respective adjustment grooves 611, respectively, and one end of the locking bolt 63 is provided through the locking plate 62 in the vertical direction. The top welding fixedly connected with a plurality of connecting pipes 7 of steel frame, a plurality of connecting pipes 7 correspond to and set up in each locking bolt 63 respectively. The connection pipe 7 is provided in the vertical direction, and one end of the locking bolt 63 penetrating the locking plate 62 is screw-fitted to the connection pipe 7.

Referring to fig. 3, a first protrusion 612 is integrally provided at one side of an inner wall of the adjustment groove 611, the first protrusion 612 is provided near one side of the slide bar 61 where the adjustment groove 611 is provided, and the first protrusion 612 extends along an extending direction of the adjustment groove 611. The bottom of the locking plate 62 is integrally provided with a second protrusion 621 at one end of the adjustment groove 611, and the second protrusion 621 is tightly fitted to the inner wall of the adjustment groove 611. When the displacement amount of the slide bar 61 is excessively large, the second protrusions 621 are tightly fitted to the first protrusions 612 to reduce occurrence of the slide bar 61 being separated from the locking plate 62.

Referring to fig. 3, a double-sided tape 613 and a structural adhesive 614 are disposed between the bottom of the glass plate 1 and the top of the sliding rod 61, two sides of the double-sided tape 613 are respectively bonded and matched with the bottom of the glass plate 1 and the top of the sliding rod 61, and the double-sided tape 613 is disposed near the junction between two adjacent glass plates 1. The structural adhesive 614 is filled between the double-sided tape 613, the bottom of the glass plate 1 and the top of the sliding rod 61, and the structural adhesive 614 is arranged far away from the joint between two adjacent glass plates 1, so as to slow down the aging speed of the double-sided tape 613 and ensure the service life of the double-sided tape 613.

Referring to fig. 1 and 2, the multifunctional steel structure energy-saving photovoltaic light shed further comprises a drainage canal 8, wherein the drainage canal 8 is concentrically surrounded on the rubber clamping layer 4 so as to reduce water remained at the top of the multifunctional steel structure energy-saving photovoltaic light shed, and therefore the occurrence of damage of the multifunctional steel structure energy-saving photovoltaic light shed due to excessive accumulated water is reduced. The drainage canal 8 comprises a plurality of stainless steel water tanks 81, the cross sections of the stainless steel water tanks 81 are all U-shaped, and the stainless steel water tanks 81 are connected end to end in sequence.

Referring to fig. 4 and 5, a second foam rod 811 and a silicone sealant 812 are provided between two adjacent stainless steel water tanks 81, the second foam rod 811 is provided away from the cavity of the stainless steel water tank 81, and the silicone sealant 812 is filled between the second foam rod 811 and the two adjacent stainless steel water tanks 81. The silicone sealant 812 is disposed adjacent to the cavity of the stainless steel water tank 81 so as to provide support for the silicone sealant 812 when the silicone sealant 812 is filled, reducing the difficulty of filling the silicone sealant 812.

Referring to fig. 4 and 5, the stainless steel water tank 81 is provided with a number of corner pieces 813, and in the embodiment of the present application, the number of corner pieces 813 is set to four. The four corner pieces 813 are equally divided into two groups, the two groups of corner pieces 813 are respectively arranged at two ends of the stainless steel water tank 81, and the two corner pieces 813 of each group are distributed along the width direction of the stainless steel water tank 81. One end of the corner brace 813 is fixedly connected to the stainless steel water tank 81 by welding, the other end of the stainless steel is mounted on the steel frame through a self-tapping bolt 814, and a gap is formed between the bottom of the stainless steel water tank 81 and the steel frame. The other end of the stainless steel is mounted on the steel frame through the self-tapping bolts 814, so that the mounting difficulty of the stainless steel water tank 81 is reduced.

The implementation principle of the multifunctional steel structure energy-saving photovoltaic photo-shed is as follows: firstly, the mounting base 5 is fixedly connected to the top of a steel frame in an adhesive manner; then, two slide bars 61 are respectively placed on top of each slide block 51; then, the locking plate 62 is mounted to the connection pipe 7 by the locking bolt 63, and the second boss 621 is fitted closely to the inner wall of the sliding groove 501; subsequently, one glass plate 1 is adhered to the top of one of the slide bars 61 by double-sided tape 613; then, the double-sided tape 613, the slide bar 61, and the glass plate 1 are filled with the structural adhesive 614; next, another glass plate 1 is mounted on top of another slide bar 61; secondly, a first foam rod 11 is inserted between the two glass plates 1, and weather-proof sealant 12 is filled between the first foam rod 11 and the two adjacent glass plates 1 to connect the two adjacent glass plates 1; finally, the above steps are repeated according to the design drawing until the arrangement and installation of all the colored glaze glass 21, the photovoltaic glass 31, and the hollow laminated glass 41 are completed. The comprehensive use of the colored glaze glass 21, the photovoltaic glass 31 and the hollow laminated glass 41 increases the function of the light shed, so that the light shed fully utilizes the building space.

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 (8)

1. The utility model provides a multi-functional steel construction energy-conserving light Fu Guangpeng which characterized in that: comprises a steel frame and a plurality of glass plates (1), wherein the glass plates (1) are all arranged on the steel frame; a plurality of glass board (1) are divided into colored glaze layer (2), photovoltaic layer (3) and double-layered glue film (4), colored glaze layer (2) are constituteed by a plurality of colored glaze glass (21), photovoltaic layer (3) are constituteed by a plurality of photovoltaic glass (31), double-layered glue film (4) are constituteed by a plurality of cavity double-layered glue glass (41), photovoltaic layer (3) enclose and locate colored glaze layer (2), just double-layered glue film (4) enclose and locate photovoltaic layer (3).

2. The multi-functional steel structure energy saving light Fu Guangpeng of claim 1, wherein: the two adjacent glass plates (1) are connected through a first foam rod (11) and weather-proof sealant (12), the first foam rod (11) is arranged between the two adjacent glass plates (1), the weather-proof sealant (12) is filled between the first foam rod (11) and the two adjacent glass plates (1), and the first foam rod (11) is positioned at the bottom of the weather-proof sealant (12).

3. The multi-functional steel structure energy saving light Fu Guangpeng of claim 1, wherein: the top of the steel frame is provided with a plurality of adjusting assemblies (6), the adjusting assemblies (6) are respectively and correspondingly arranged between every two adjacent glass plates (1), each adjusting assembly (6) comprises two sliding rods (61), two locking plates (62) and two locking bolts (63), the two sliding rods (61) are respectively arranged at the bottoms of the two adjacent glass plates (1), the two sliding rods (61) are arranged in parallel, one side, close to the other sliding rod (61), of each sliding rod (61) is provided with an adjusting groove (611), and each adjusting groove (611) extends along the horizontal direction;

the both sides of locking board (62) are respectively in sliding fit in each adjustment tank (611), locking board (62) are worn to locate in one end of locking bolt (63), a plurality of connecting pipes (7) are installed at the top of steel frame, and a plurality of connecting pipes (7) correspond the setting with each locking bolt (63) respectively, connecting pipe (7) set up along vertical direction, the one end screw thread fit in connecting pipe (7) that wears to locate locking board (62) of locking bolt (63).

4. A multi-functional steel structure energy saving light Fu Guangpeng as claimed in claim 3, wherein: the steel frame is characterized in that the top of the steel frame is provided with a mounting base (5), two sliding blocks (51) are matched with the top of the mounting base (5) in a sliding mode, the two sliding blocks (51) are respectively arranged on the sliding rods (61) in a corresponding mode, one side of each sliding rod (61) abuts against the top of each sliding block (51) from top to bottom, and gaps are formed between the sliding rods (61) and the mounting base (5).

5. A multi-functional steel structure energy saving light Fu Guangpeng as claimed in claim 3, wherein: the glass plate (1) is arranged at the top of the sliding rod (61) through the structural adhesive (614) and the double-sided tape (613), the double-sided tape (613) is close to the joint between two adjacent glass plates (1), and the structural adhesive (614) is far away from the joint between two adjacent glass plates (1).

6. The multi-functional steel structure energy saving light Fu Guangpeng of claim 1, wherein: still include drainage canal (8), drainage canal (8) include a plurality of stainless steel basin (81), a plurality of stainless steel basin (81) end to end links to each other in proper order, and two are adjacent be connected through second foam stick (811) and silicone sealant (812) between stainless steel basin (81), second foam stick (811) are located between two adjacent stainless steel basin (81), silicone sealant (812) are filled between second foam stick (811) and two adjacent stainless steel basin (81), just cavity setting that stainless steel basin (81) were kept away from to silicone sealant (812).

7. The multi-functional steel structure energy saving light Fu Guangpeng of claim 6, further comprising: the stainless steel water tank (81) is provided with a plurality of angle codes (813), a plurality of one end of each angle code (813) is fixedly installed at the bottom of the stainless steel water tank (81), the other end of each angle code (813) is fixedly installed at the steel frame, and a gap is formed between the bottom of the stainless steel water tank (81) and the steel frame.

8. The multi-functional steel structure energy saving light Fu Guangpeng of claim 7, wherein: one end of the corner brace (813) far away from the stainless steel water tank (81) is mounted on the steel frame through a self-tapping bolt (814).