CN220814429U - Photovoltaic decorative plate structure and curtain wall - Google Patents

Abstract

The utility model relates to a photovoltaic decorative plate structure and a curtain wall, wherein the photovoltaic decorative plate structure comprises a fixing unit, a mounting unit, a photovoltaic unit, an illumination unit and a locking unit; the fixing unit is arranged on the outer side of the curtain wall device and is detachably connected with the curtain wall device; the mounting unit is arranged on the outer side of the fixing unit and is connected with the fixing unit; the photovoltaic unit is detachably connected with the mounting unit and used for collecting and converting light energy; the lighting unit is arranged on the mounting unit and used for lighting; the locking unit is detachably connected with the curtain wall device, the fixing unit, the mounting unit and the photovoltaic unit respectively. The curtain wall device has the advantages that the photovoltaic unit which can be detachably connected with the curtain wall device is arranged to serve as a decorative plate of the outer elevation, the control device is matched to supply electric energy collected by the photovoltaic unit to the lighting unit, the energy is saved while the effect of the elevation is good, and the problem that the area of the public building roof which can be provided with the photovoltaic plate is small is solved.

Description

Photovoltaic decorative plate structure and curtain wall

Technical Field

The utility model relates to the technical field of building curtain wall decoration, in particular to a photovoltaic decorative plate structure and a curtain wall.

Background

In order to ensure the effects of beautiful appearance, lighting and the like of the building, the existing public building mostly adopts a glass curtain wall as an outer elevation, and is matched with a decorative plate made of metal or other materials so as to enrich the elevation effect. Meanwhile, a lighting system is provided at the outside of the building to provide a night brightening function.

Most existing decorative panels are only used for decoration, and the lighting system needs additional energy. If the building adopts the photovoltaic system to provide electric energy for the building outer elevation lighting system, because a large amount of electromechanical devices are also arranged on the roof, the area of the roof on which the photovoltaic plate can be paved is smaller, and the electricity consumption requirement of the building outer elevation lighting system can not be met.

At present, no effective solution is proposed for the problems that the area of a public building roof where a photovoltaic panel can be arranged is smaller and the like in the related art.

Disclosure of utility model

The utility model aims to overcome the defects in the prior art, and provides a photovoltaic decorative plate structure and a curtain wall, so as to solve the problems that the area of a public building roof where a photovoltaic plate can be arranged is smaller and the like in the related art.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

in a first aspect, a photovoltaic trim panel structure is provided, comprising:

the fixing unit is arranged on the outer side of the curtain wall device and is detachably connected with the curtain wall device;

the mounting unit is arranged on the outer side of the fixing unit and is connected with the fixing unit;

the photovoltaic unit is detachably connected with the mounting unit and is used for collecting and converting light energy;

The lighting unit is arranged on the mounting unit and used for lighting;

The locking unit is detachably connected with the curtain wall device, the fixing unit, the mounting unit and the photovoltaic unit respectively.

In some of these embodiments, the fixing unit includes:

A first fixing element provided outside the curtain wall device;

The first connecting element is arranged at the first end of the first fixing element and is detachably connected with the curtain wall device and the locking unit respectively;

The second connecting element is arranged at the second end of the first fixing element and is detachably connected with the locking unit;

The second fixing element is arranged at the second end of the first fixing element, the first end of the second fixing element is detachably connected with the first fixing element, and the second end of the second fixing element is connected with the mounting unit;

And the third connecting element is arranged at the first end of the second fixing element and is detachably connected with the second connecting element and the locking unit respectively.

In some of these embodiments, the mounting unit comprises:

The installation element is arranged on the outer side of the fixing unit, the first end of the installation element is connected with the fixing unit, the second end of the installation element is connected with the photovoltaic unit, and an included angle formed by the installation element and the fixing unit is an obtuse angle;

and the fourth connecting element is arranged at the second end of the mounting element and is detachably connected with the photovoltaic unit and the locking unit respectively.

Further, in some embodiments thereof, the mounting unit further comprises:

And the elastic element is arranged between the mounting element and the photovoltaic unit and is respectively abutted against the mounting element and the photovoltaic unit.

In some of these embodiments, the photovoltaic unit comprises:

The photovoltaic element is arranged on the outer side of the mounting unit, and the first end of the photovoltaic element is connected with the second end of the mounting unit and is used for collecting and converting light energy;

And the fifth connecting element is arranged at the first end of the photovoltaic element and is detachably connected with the mounting unit and the locking unit respectively.

In some of these embodiments, the lighting unit comprises:

And the illumination element is arranged on the inner side and/or the outer side of the mounting unit and is used for illumination.

In some of these embodiments, the locking unit comprises:

The first locking element is detachably connected with the curtain wall device and the fixing unit respectively;

A second locking element detachably connected with the fixing unit;

And the third locking element is detachably connected with the mounting unit and the photovoltaic unit respectively.

Further, in some embodiments thereof, further comprising:

The decoration unit is arranged on the outer side of the fixing unit, is connected with the curtain wall device and is used for shielding the fixing unit.

In some of these embodiments, the decorative unit comprises:

the decorative element is arranged on the outer side of the fixing unit and used for shielding the fixing unit;

And the sixth connecting element is respectively connected with the decorative element and the curtain wall device.

In a second aspect, there is provided a curtain wall comprising:

the curtain wall device is vertically arranged;

The control device is arranged in the curtain wall device;

The photovoltaic decorating plate structure of the first aspect is arranged on the outer side of the curtain wall device, and the photovoltaic decorating plate structure array is connected with the curtain wall device and the control device respectively.

Compared with the prior art, the utility model has the following technical effects:

According to the photovoltaic decorative plate structure and the curtain wall, the photovoltaic unit which can be detachably connected with the curtain wall device is arranged to serve as the decorative plate of the outer elevation, and the control device is matched to supply electric energy collected by the photovoltaic unit to the lighting unit, so that the photovoltaic decorative plate structure and the curtain wall have a good elevation effect, meanwhile, energy sources are saved, and the problem that the area of a public building roof where the photovoltaic plate can be arranged is smaller is solved.

Drawings

FIG. 1 is a schematic view (one) of a photovoltaic trim panel structure according to an embodiment of the present utility model;

FIG. 2 is a schematic illustration of a stationary unit according to an embodiment of the utility model;

FIG. 3 is a schematic view of a mounting unit according to an embodiment of the utility model;

FIG. 4 is a schematic view of a photovoltaic unit according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a lighting unit according to an embodiment of the utility model;

FIG. 6 is a schematic view of a locking unit according to an embodiment of the utility model;

FIG. 7 is a schematic view of a photovoltaic trim panel structure according to an embodiment of the present utility model (II);

FIG. 8 is a schematic view of a decorative unit according to an embodiment of the utility model;

Fig. 9 is a schematic view of a curtain wall according to an embodiment of the present utility model.

Wherein the reference numerals are as follows: 100. curtain wall device; 200. a control device; 300. a photovoltaic decorative plate structure;

310. A fixing unit; 311. a first fixing element; 312. a first connecting element; 313. a second connecting element; 314. a second fixing element; 315. a third connecting element;

320. An installation unit; 321. a mounting element; 322. a fourth connecting element; 323. an elastic element;

330. A photovoltaic unit; 331. A photovoltaic element; 332. A fifth connecting element;

340. A lighting unit; 341. A lighting element;

350. A locking unit; 351. a first locking element; 352. a second locking element; 353. a third locking element;

360. A decoration unit; 361. a decorative element; 362. and a sixth connecting element.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

Example 1

The embodiment relates to a photovoltaic decorative plate structure.

An exemplary embodiment of the present utility model, as shown in fig. 1, a photovoltaic trim panel structure 300 includes a fixing unit 310, a mounting unit 320, a photovoltaic unit 330, a lighting unit 340, and a locking unit 350. The fixing unit 310 is arranged at the outer side of the curtain wall device and is detachably connected with the curtain wall device; the mounting unit 320 is disposed at an outer side of the fixing unit 310 and detachably connected with the fixing unit 310; the photovoltaic unit 330 is detachably connected with the mounting unit 320, and is used for collecting and converting light energy; the illumination unit 340 is disposed on the mounting unit 320 for illumination; the locking unit 350 is detachably connected to the curtain wall device, the fixing unit 310, the mounting unit 320, and the photovoltaic unit 330, respectively.

As shown in fig. 2, the fixing unit 310 includes a first fixing member 311, a first connecting member 312, a second connecting member 313, a second fixing member 314, and a third connecting member 315. Wherein the first fixing element 311 is disposed outside the curtain wall device 100; the first connecting element 312 is disposed at a first end of the first fixing element 311, and is detachably connected to the curtain wall device 100 and the locking unit 350, respectively; the second connection element 313 is disposed at the second end of the first fixing element 311 and detachably connected to the locking unit 350; the second fixing element 314 is disposed at a second end of the first fixing element 311, the first end of the second fixing element 314 is detachably connected to the first fixing element 311, and the second end of the second fixing element 314 is connected to the mounting unit 320; the third connecting element 315 is disposed at a first end of the second fixing element 314, and detachably connected to the second connecting element 313 and the locking unit 350, respectively.

At least 1 first fixing element 311.

In the case where the number of the first fixing members 311 is several (at least two), the several first fixing members 311 are arranged at intervals in the vertical direction of the curtain wall apparatus.

In some of these embodiments, the number of first fixing elements 311 is 2.

In some of these embodiments, the first securing element 311 is T-shaped in cross-section. Specifically, the first fixing element 311 includes a lateral fixing member and a longitudinal fixing member. Wherein the lateral fixing member is disposed at the outer side of the curtain wall device, and the lateral portion of the lateral fixing member is provided with a first connecting element 312; the first end of the longitudinal fixing element is arranged perpendicular to the transverse fixing element and the second end of the longitudinal fixing element is provided with a second connecting element 313.

In some of these embodiments, the height of the lateral securing member is 200mm.

In some of these embodiments, the width of the transverse fixture is 80mm.

In some of these embodiments, the transverse fixture has a thickness of 18mm.

The longitudinal fixing piece and the transverse fixing piece are integrally formed.

The dimensions of the longitudinal fasteners match those of the transverse fasteners. Typically, the height of the longitudinal fasteners is equal to the height of the transverse fasteners and the thickness of the longitudinal fasteners is less than the width of the transverse fasteners.

In some of these embodiments, the height of the longitudinal fixture is 200mm.

In some of these embodiments, the width of the longitudinal fixation member is 20mm.

In some of these embodiments, the longitudinal fixation member has a thickness of 18mm.

In some of these embodiments, the first securing element 311 is a stainless steel tee.

The first connecting element 312 is arranged through the first fixing element 311. Specifically, the first connecting element 312 is disposed through the front and rear surfaces of the lateral securing member.

The number of first connecting elements 312 matches the number of first fixing elements 311. Generally, the number of the first connecting elements 312 is an even number of the first fixing elements 311, i.e. one first fixing element 311 corresponds to an even number of the first connecting elements 312. Specifically, with the longitudinal fixing member as a boundary, at least 1 first connecting element 312 is respectively disposed on the left and right sides of the transverse fixing member, and the plurality of first connecting elements 312 are disposed at intervals along the height direction of the transverse fixing member.

In some of these embodiments, the number of first connecting elements 312 is 8 times the number of first fixing elements 311. Specifically, with the longitudinal fixing member as a boundary, 4 first connection elements 312 are provided on the left side of the transverse fixing member, and 4 first connection elements 312 are provided on the right side.

In some of these embodiments, the number of first connecting elements 312 is 16.

The first connecting element 312 is dimensioned to match the dimensions of the transverse fixing. Generally, the radial dimension (width, length) of the first connecting element 312 is smaller than the distance between the edge of a longitudinal fastener and the edge of an adjacent transverse fastener.

In some of these embodiments, the first connecting element 312 is circular in cross-section.

In some of these embodiments, the first connecting element 312 has a diameter of 10mm.

In some of these embodiments, the first connecting element 312 is a first through hole, including but not limited to a threaded hole or the like.

The second connection element 313 is disposed through the first fixing element 311. Specifically, the second connection element 313 is provided through the left and right sides of the longitudinal fixing.

The number of second connection elements 313 matches the number of first fixing elements 311. Generally, the number of the second connecting elements 313 is an integer multiple of the number of the first fixing elements 311, i.e. one first fixing element 311 corresponds to a plurality of second connecting elements 313. In particular, several second connection elements 313 are arranged in an array along the height direction of the longitudinal fixing.

In some of these embodiments, the number of second connection elements 313 is 4 times the number of first fixing elements 311. In particular, 4 second connection elements 313 are arranged in an array along the height direction of the longitudinal fixing.

In some of these embodiments, the number of second connection elements 313 is 8.

The dimensions of the second connecting element 313 match those of the longitudinal fixing. Generally, the radial dimension (width, length) of the second connecting element 313 is smaller than the width of the longitudinal fixing.

In some of these embodiments, the second connecting element 313 is circular in cross-section.

In some of these embodiments, the second connection element 313 has a diameter of 10mm.

In some of these embodiments, the second connection element 313 is a second through hole, including but not limited to a threaded hole or the like.

The number of second fixing elements 314 matches the number of first fixing elements 311. Generally, the number of the second fixing elements 314 is equal to the number of the first fixing elements 311, that is, the second fixing elements 314 are in one-to-one correspondence with the first fixing elements 311.

In some of these embodiments, the number of second fixation elements 314 is 2.

The dimensions of the second fixing element 314 match those of the longitudinal fixing. Typically, the height of the second securing element 314 is no greater than the height of the longitudinal securing element.

In some of these embodiments, the height of the second securing element 314 is equal to the height of the longitudinal securing member.

In some of these embodiments, the second securing element 314 is H-shaped or I-shaped in cross-section. Specifically, the second fixing element 314 includes a first fixing member, a second fixing member, and a third fixing member. Wherein, the inner side of the first end of the first fixing piece is abutted with the outer side of the second end of the first fixing element 311, the second end of the first fixing piece is connected with the mounting unit 320, and the first end of the first fixing piece is provided with the third connecting element 315; the second fixing piece is symmetrically arranged with the first fixing piece, the inner side of the first end of the second fixing piece is abutted with the outer side of the second end of the first fixing element 311, the second end of the second fixing piece is connected with the mounting unit 320, and the first end of the second fixing piece is provided with a third connecting element 315; the two ends of the third fixing piece are respectively connected with the first fixing piece and the second fixing piece, and the rear side of the third fixing piece is abutted with the front side of the second end of the first fixing element 311.

The section of the first fixing piece is wedge-shaped.

The section of the second fixing piece is wedge-shaped.

The length of the second fixing piece is matched with that of the first fixing piece. Typically, the length of the second securing member is greater than or less than the length of the first securing member.

Preferably, the second fixing member has a length greater than that of the first fixing member.

The third securing member is sized to match the longitudinal securing member. Typically, the width of the third fastener is not less than the thickness of the longitudinal fastener.

In some of these embodiments, the width of the third securing member is equal to the thickness of the longitudinal securing member.

In some of these embodiments, the width of the third securing member is 18mm.

The third fixing piece, the first fixing piece and the second fixing piece are integrally formed.

In some of these embodiments, the second securing element 314 is a stainless steel mount.

The third connecting element 315 is disposed through the first fixing member and the second fixing member, respectively. The number of third connecting elements 315 provided at the first mount matches the number of third connecting elements 315 provided at the second mount. Generally, the number of third connecting elements 315 provided at the first mount is equal to the number of third connecting elements 315 provided at the second mount.

The number of third connecting elements 315 matches the number of second connecting elements 313. Generally, the number of third connection elements 315 is equal to the number of second connection elements 313, i.e. the third connection elements 315 are in one-to-one correspondence with the second connection elements 313.

The dimensions of the third connecting element 315 match those of the second connecting element 313. Generally, the radial dimension (length or width) of the third connecting element 315 is not less than the radial dimension (length or width) of the second connecting element 313.

In some of these embodiments, the radial dimension of the third connecting element 315 is equal to the radial dimension of the second connecting element 313.

In some of these embodiments, the third connecting element 315 is circular in cross-section.

In some of these embodiments, the diameter of the third connecting element 315 is 10mm.

In some of these embodiments, the third connecting element 315 is a third through-hole, including but not limited to a threaded hole or the like.

As shown in fig. 3, the mounting unit 320 includes a mounting member 321 and a fourth connection member 322. The installation element 321 is arranged on the outer side of the fixing unit 310, a first end of the installation element 321 is connected with the fixing unit 310, a second end of the installation element 321 is connected with the photovoltaic unit 330, and an included angle formed by the installation element 321 and the fixing unit 310 is an obtuse angle; the fourth connecting element 322 is disposed at the second end of the mounting element 321, and is detachably connected to the photovoltaic unit 330 and the locking unit 350, respectively.

Specifically, a first end of the mounting member 321 is coupled to a second end of the second securing member 314.

More specifically, the first end of the mounting element 321 is connected to the second end of the first fixing member and the second end of the second fixing member, respectively.

The number of mounting elements 321 matches the number of second fixing elements 314. Typically, the number of the second fixing elements 314 is an integer multiple of the number of the mounting elements 321, i.e. one mounting element 321 corresponds to a plurality of the second fixing elements 314.

In some of these embodiments, the number of mounting elements 321 is 1.

In some of these embodiments, the mounting element 321 has a U-shaped cross section. Specifically, the closed end of the mounting element 321 is connected to the second fixing element 314; the open end of the mounting element 321 is provided with a fourth connecting element 322. More specifically, the closed ends of the mounting element 321 are connected to the second end of the first mount and the second end of the second mount, respectively.

The included angle between the mounting element 321 and the second fixing member is 135-170 deg.

Preferably, the angle between the mounting element 321 and the second fixture is 135 °.

In some of these embodiments, the attachment means of the mounting element 321 to the first and second fixtures includes, but is not limited to, welding.

The dimensions of the mounting element 321 match those of the second fixing element 314. Typically, the height of the mounting element 321 is greater than the height of the second fixing element 314, and the thickness of the mounting element 321 is not less than the thickness of the second fixing element 314.

In some of these embodiments, the thickness of the mounting element 321 is equal to the thickness of the second securing element 314.

The fourth connecting member 322 is disposed through the left and right sidewalls of the mounting member 321.

The number of fourth connecting elements 322 matches the number of mounting elements 321. Generally, the number of the fourth connecting elements 322 is an integer multiple of the number of the mounting elements 321, i.e. one mounting element 321 corresponds to a plurality of fourth connecting elements 322. Specifically, a plurality of fourth connecting members 322 are disposed at intervals in the height direction of the mounting member 321.

In some of these embodiments, the number of fourth connecting elements 322 is 2 times the number of mounting elements 321. Specifically, 1 fourth connecting member 322 is provided at each of the top and bottom of each mounting member 321.

The fourth connecting element 322 is dimensioned to match the dimensions of the mounting element 321. Generally, the radial dimension (length, width) of the fourth connecting element 322 is smaller than the width of the mounting element 321.

In some of these embodiments, the fourth connecting element 322 is circular in cross-section.

In some of these embodiments, the fourth connecting element 322 is a fourth through-hole, including but not limited to a threaded hole or the like.

Further, the mounting unit 320 further includes an elastic member 323. The elastic element 323 is disposed between the mounting element 321 and the photovoltaic unit 330, and abuts against the mounting element 321 and the photovoltaic unit 330, respectively.

The number of resilient elements 323 matches the number of mounting elements 321. Typically, the number of elastic elements 323 is 2 times the number of mounting elements 321, i.e. two elastic elements 323 are corresponding to each mounting element 321. Specifically, 1 elastic member 323 is provided in the inside of the left side wall and the inside of the right side wall of the mounting member 321, respectively.

The dimensions of the resilient element 323 match the dimensions of the mounting element 321. Typically, the height of the resilient element 323 is equal to the height of the mounting element 321, and the width of the resilient element 323 is no greater than the depth of the recess of the mounting element 321.

In some of these embodiments, the resilient element 323 includes, but is not limited to, a hard pad.

As shown in fig. 4, the photovoltaic unit 330 includes a photovoltaic element 331 and a fifth connecting element 332. The photovoltaic element 331 is disposed at the outer side of the mounting unit 320, and a first end of the photovoltaic element 331 is connected to a second end of the mounting unit 320, for collecting and converting the light energy; the fifth connecting element 332 is disposed at a first end of the photovoltaic element 331 and detachably connected to the mounting unit 320 and the locking unit 350, respectively.

Specifically, the photovoltaic element 331 is connected to the mounting element 321, and the fifth connecting element 332 corresponds to the fourth connecting element 322.

In some of these embodiments, the photovoltaic element 331 is disposed within a recess of the mounting element 321.

The number of photovoltaic elements 331 matches the number of mounting elements 321. Generally, the number of photovoltaic elements 331 is equal to the number of mounting elements 321, i.e. the photovoltaic elements 331 are in one-to-one correspondence with the mounting elements 321.

The size of the photovoltaic element 331 matches the size of the mounting element 321. Generally, the height of the photovoltaic element 331 is equal to the height of the mounting element 321. The thickness of the photovoltaic element 331 is smaller than the thickness of the groove of the mounting element 321, and the width of the photovoltaic element 331 is larger than the depth of the groove of the mounting element 321.

In some of these embodiments, the photovoltaic element 331 is plate-shaped.

In some of these embodiments, the planar shape of the photovoltaic element 331 is rectangular.

In some of these embodiments, the photovoltaic element 331 includes, but is not limited to, a cadmium telluride power generation glass.

The fifth connecting element 332 is disposed through the side of the photovoltaic element 331.

The number of fifth connecting elements 332 matches the number of fourth connecting elements 322. Generally, the number of the fifth connecting elements 332 is equal to the number of the fourth connecting elements 322, that is, the fifth connecting elements 332 are in one-to-one correspondence with the fourth connecting elements 322.

In the case where the number of the fifth connecting elements 332 is a plurality, the plurality of fifth connecting elements 332 are disposed at intervals in the height direction of the photovoltaic element 331.

In some of these embodiments, the number of fifth connecting elements 332 is 2. Specifically, the top and bottom of the photovoltaic element 331 are each provided with 1 fifth connecting element 332.

The fifth connecting element 332 is sized to match the fourth connecting element 322. Generally, the radial dimension (length, width) of the fifth connecting element 332 is equal to the radial dimension (length, width) of the fourth connecting element 322.

In some of these embodiments, the fifth connecting element 332 is circular in cross-section.

In some of these embodiments, the fifth connecting element 332 is a fifth through hole, including but not limited to a threaded hole, or the like.

As shown in fig. 5, the lighting unit 340 includes a lighting element 341. Wherein the lighting element 341 is provided at the inner side and/or the outer side of the mounting unit 320 for lighting.

In particular, the lighting element 341 is arranged on the inside and/or outside of the mounting element 321.

In some of these embodiments, the lighting element 341 is disposed in a recess of the mounting element 321.

In some of these embodiments, the manner in which the lighting element 341 is attached to the mounting element 321 includes, but is not limited to, adhesive bonding.

The size of the lighting element 341 matches the size of the mounting element 321. Generally, the height of the lighting element 341 is equal to the height of the mounting element 321, and the width of the lighting element 341 is not greater than the thickness of the recess of the mounting element 321.

In some of these embodiments, the lighting element 341 includes, but is not limited to, an LED light strip.

As shown in fig. 6, the locking unit 350 includes a first locking element 351, a second locking element 352, and a third locking element 353. Wherein, the first locking element 351 is detachably connected with the curtain wall device and the fixing unit 310 respectively; the second locking element 352 is detachably connected with the fixing unit 310; the third locking element 353 is detachably connected to the mounting unit 320, the photovoltaic unit 330, respectively.

Specifically, the first locking element 351 is detachably connected to the curtain wall device and the first connecting element 312, respectively; the second locking element 352 is detachably connected with the second connecting element 313 and the third connecting element 315 respectively; the third locking element 353 is detachably connected to the fourth connecting element 322 and the fifth connecting element 332, respectively.

The number of first locking elements 351 matches the number of first connecting elements 312. Generally, the number of first locking elements 351 is equal to the number of first connecting elements 312, i.e. the first locking elements 351 are in one-to-one correspondence with the first connecting elements 312.

In some of these embodiments, the number of first locking elements 351 is 8.

In some of these embodiments, the first locking element 351 is threadably coupled to the first coupling element 312.

In some of these embodiments, the first locking element 351 includes, but is not limited to, a set of bolts or the like.

The number of second locking elements 352 matches the number of second connecting elements 313. Generally, the number of second locking elements 352 is equal to the number of second connecting elements 313, i.e. the second locking elements 352 are in one-to-one correspondence with the second connecting elements 313.

In some of these embodiments, the number of second locking elements 352 is 4.

In some of these embodiments, second locking element 352 includes, but is not limited to, an M8 umbrella bolt set.

The number of third locking elements 353 matches the number of fourth connecting elements 322. Generally, the number of third locking elements 353 is equal to the number of fourth connecting elements 322, i.e. the third locking elements 353 are in one-to-one correspondence with the fourth connecting elements 322.

In some of these embodiments, the number of third locking elements 353 is 2.

In some of these embodiments, the third locking element 353 includes, but is not limited to, a stainless steel porcine nose bolt.

The utility model has the advantages that the photovoltaic unit which can be detachably connected with the curtain wall device is arranged as the decorative board of the outer elevation, and the control device is matched to supply the electric energy collected by the photovoltaic unit to the lighting unit, so that the utility model has better elevation effect, saves energy sources and solves the problem that the area of the public building roof where the photovoltaic plate can be arranged is smaller.

Example 2

This embodiment is a complementary embodiment to embodiment 1.

As shown in fig. 7, the photovoltaic trim panel structure 300 further includes a trim unit 360. The decoration unit 360 is disposed at an outer side of the fixing unit 310, and is connected with the curtain wall device for shielding the fixing unit 310.

As shown in fig. 8, the decoration unit 360 includes a decoration element 361 and a sixth connection element 362. The decoration element 361 is disposed outside the fixing unit 310 and is used for shielding the fixing unit 310; the sixth connecting member 362 is connected to the decoration member 361 and the fixing unit 310, respectively.

Specifically, the decoration element 361 is disposed outside the first fixing element 311; the sixth connecting member 362 is connected with the first fixing member 311;

More specifically, the decorative element 361 is disposed outside the longitudinal fixing member; the sixth connecting element 362 is connected with the longitudinal fixing.

The decorative element 361 is sized to match the size of the mounting element 321. In general, the height of the decorative element 361 is equal to the height of the mounting element 321.

The decorative element 361 has a size matching the size of the first fixing element 311. In general, the width of the decoration element 361 is equal to the width of the first fixing element 311.

In some of these embodiments, the decorative element 361 includes, but is not limited to, a fluorocarbon sprayed aluminum alloy bezel.

In some of these embodiments, the sixth connecting element 362 is snapped into engagement with the decorative element 361.

In some of these embodiments, the sixth connecting element 362 is connected to the longitudinal fixture by a method including, but not limited to, welding.

The sixth connecting element 362 is sized to match the size of the mounting element 321. Typically, the height of the sixth connecting element 362 is equal to the height of the mounting element 321.

The sixth connecting element 362 has a size that matches the size of the decorative element 361. Generally, the width of the sixth connecting element 362 is equal to the width of the decorative element 361.

In some of these embodiments, the sixth connection element 362 includes, but is not limited to, a fluorocarbon spray aluminum alloy clasp.

The advantage of this embodiment lies in, shelter from fixed unit through setting up the decoration unit, not only makes the outer facade of building more clean and tidy pleasing to the eye, also can protect fixed unit not by weatherized corrosion such as rainwater simultaneously.

Example 3

This embodiment relates to curtain walls of the present utility model.

As shown in fig. 9, a curtain wall includes a curtain wall device 100, a control device 200, and a plurality of photovoltaic trim panel structures 300 as described in embodiments 1 to 2. Wherein the curtain wall apparatus 100 is vertically disposed; the control device 200 is arranged inside the curtain wall device 100; the photovoltaic decorative plate structures 300 are arranged on the outer side of the curtain wall device 100 in an array mode and are respectively connected with the curtain wall device 100 and the control device 200.

The curtain wall apparatus 100 includes a keel unit and a glass unit. Wherein the keel unit is vertically arranged and detachably connected with the photovoltaic decorating plate structure 300; the glass unit is arranged on the outer side of the keel unit.

Specifically, the keel unit is detachably connected to the fixing unit 310, the locking unit 350.

More specifically, the keel unit is detachably connected to the first fixation element 311, the first locking element 351.

In some of these embodiments, the keel unit is threadably connected to the first locking element 351.

In some of these embodiments, the keel units include, but are not limited to, aluminum alloy studs.

And a metal section bar clamping connection is arranged between the glass unit and the keel unit.

In some of these embodiments, the glass unit includes, but is not limited to, double silver low-e double hollow tempered glass.

The control device 200 includes a control unit and an energy storage unit. The control unit is arranged in the curtain wall device 100, is connected with the photovoltaic decorative plate structure 300 and is used for controlling the photovoltaic decorative plate structure 300; the energy storage unit is disposed inside the curtain wall apparatus 100 and connected with the control unit.

Specifically, the control unit is disposed on the keel unit and is connected with the photovoltaic unit 330 and the lighting unit 340; the energy storage unit is arranged on the keel unit.

The control unit is electrically connected with the photovoltaic unit 330 and the illumination unit 340.

In some of these embodiments, the control unit is a photovoltaic inverter.

In some of these embodiments, the energy storage unit is a power distributor.

The application method of the utility model comprises the following steps:

The fixing units 310 of the plurality of photovoltaic decorative plate structures 300 are installed to the outer sides of the keel units of the curtain wall device 100, and the vertical surfaces formed by the plurality of photovoltaic decorative plates form gradual change patterns by adjusting the angles between the installation units 320 and the fixing units 310;

During the daytime, the photovoltaic unit 330 collects light energy and converts the light energy into electric energy to be transmitted to the control unit, and the energy storage unit stores the electric energy;

at night, the energy storage unit supplies power to the lighting unit 340.

The utility model has the advantages that different building elevation patterns can be obtained by adjusting the angles of the photovoltaic decorative plate structures, the unit modularized photovoltaic decorative plate structures can be customized in a factory, the installation efficiency of the curtain wall is improved, and the construction period is shortened.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included within the scope of the present utility model.

Claims (10)

1. A photovoltaic trim panel structure, comprising:

the fixing unit is arranged on the outer side of the curtain wall device and is detachably connected with the curtain wall device;

the mounting unit is arranged on the outer side of the fixing unit and is connected with the fixing unit;

the photovoltaic unit is detachably connected with the mounting unit and is used for collecting and converting light energy;

The lighting unit is arranged on the mounting unit and used for lighting;

The locking unit is detachably connected with the curtain wall device, the fixing unit, the mounting unit and the photovoltaic unit respectively.

2. The photovoltaic trim panel structure of claim 1, wherein the securing unit comprises:

A first fixing element provided outside the curtain wall device;

The first connecting element is arranged at the first end of the first fixing element and is detachably connected with the curtain wall device and the locking unit respectively;

The second connecting element is arranged at the second end of the first fixing element and is detachably connected with the locking unit;

The second fixing element is arranged at the second end of the first fixing element, the first end of the second fixing element is detachably connected with the first fixing element, and the second end of the second fixing element is connected with the mounting unit;

And the third connecting element is arranged at the first end of the second fixing element and is detachably connected with the second connecting element and the locking unit respectively.

3. The photovoltaic trim panel structure of claim 1, wherein the mounting unit comprises:

The installation element is arranged on the outer side of the fixing unit, the first end of the installation element is connected with the fixing unit, the second end of the installation element is connected with the photovoltaic unit, and an included angle formed by the installation element and the fixing unit is an obtuse angle;

and the fourth connecting element is arranged at the second end of the mounting element and is detachably connected with the photovoltaic unit and the locking unit respectively.

4. A photovoltaic trim panel structure according to claim 3, wherein the mounting unit further comprises:

And the elastic element is arranged between the mounting element and the photovoltaic unit and is respectively abutted against the mounting element and the photovoltaic unit.

5. The photovoltaic trim panel structure of claim 1, wherein the photovoltaic unit comprises:

The photovoltaic element is arranged on the outer side of the mounting unit, and the first end of the photovoltaic element is connected with the second end of the mounting unit and is used for collecting and converting light energy;

And the fifth connecting element is arranged at the first end of the photovoltaic element and is detachably connected with the mounting unit and the locking unit respectively.

6. The photovoltaic trim panel structure of claim 1, wherein the lighting unit comprises:

And the illumination element is arranged on the inner side and/or the outer side of the mounting unit and is used for illumination.

7. The photovoltaic trim panel structure of claim 1, wherein the locking unit comprises:

The first locking element is detachably connected with the curtain wall device and the fixing unit respectively;

A second locking element detachably connected with the fixing unit;

And the third locking element is detachably connected with the mounting unit and the photovoltaic unit respectively.

8. The photovoltaic trim panel structure of any one of claims 1-7, further comprising:

The decoration unit is arranged on the outer side of the fixing unit, is connected with the curtain wall device and is used for shielding the fixing unit.

9. The photovoltaic trim panel structure of claim 8, wherein the trim unit comprises:

the decorative element is arranged on the outer side of the fixing unit and used for shielding the fixing unit;

And the sixth connecting element is respectively connected with the decorative element and the curtain wall device.

10. A curtain wall, comprising:

the curtain wall device is vertically arranged;

The control device is arranged in the curtain wall device;

The photovoltaic decorative plate structure of any one of claims 1-9, wherein the photovoltaic decorative plate structure arrays are arranged on the outer side of the curtain wall device and are respectively connected with the curtain wall device and the control device.