CN206894570U - Photovoltaic mounting system - Google Patents

Abstract

The utility model discloses a photovoltaic bracket system, which comprises a supporting part; the fixed photovoltaic module is fixedly arranged on the top of the supporting part; remove photovoltaic module, including removing the photovoltaic board, first connecting rod and second connecting rod are a plurality ofly, the first end of every first connecting rod and the first end of every second connecting rod all articulate the lower surface that removes the photovoltaic board, the line of the first end of a plurality of first connecting rods and the parallel interval setting of the line of the first end of a plurality of second connecting rods, the second end of every first connecting rod and the second end of every second connecting rod all articulate the top at the supporting component, it has the back position of contracting of superpose on fixed photovoltaic module and the expansion position that is located the coplanar with fixed photovoltaic module to remove the photovoltaic board. The device can be stretched when the irradiation quantity is large in the daytime, so that the power generation quantity is increased; the power generation device can be contracted during remote transportation or when power generation is not carried out, so that the occupied space is reduced, and the transportation is facilitated.

Description

Photovoltaic bracket system

Technical field

Solar energy power generating field is the utility model is related to, in particular to a kind of photovoltaic bracket system.

Background technology

Foldable, the mobile photovoltaic generation electric energy storage device of container-type of the prior art generally comprises container body, photovoltaic Component, photovoltaic DC-to-AC converter, photovoltaic controller, battery, inside one end of the container body are provided with photovoltaic DC-to-AC converter, photovoltaic control Device and battery processed；The photovoltaic module is charged the battery storage by photovoltaic controller, and the battery exports DC load, described Battery exports AC load by photovoltaic DC-to-AC converter：The container body outer surface is provided with collapsible photovoltaic battery panel and carries out photoelectricity Effect.The container-type photovoltaic power generation equipment of the utility model, which has, may move, can be by long-range to realize its maneuverability Transport, it is foldable, make to realize single complete equipment maximum capacity by container flank and top surface foldable to lay more Big easy battery component, while the features such as be also convenient for transport.

The shortcomings that prior art：It is complicated, cost of manufacture is high or complicated mechanism, transmission efficiency are low.

Utility model content

A kind of photovoltaic bracket system is provided in the utility model embodiment, to reach the purpose of simplified structure.

To achieve the above object, the utility model embodiment provides a kind of photovoltaic bracket system, including support member；It is fixed Photovoltaic module, it is fixedly installed on the top of support member；Mobile photovoltaic module, including mobile photovoltaic panel, first connecting rod and second Connecting rod, first connecting rod and second connecting rod are multiple, and the first end of the first end of each first connecting rod and each second connecting rod is equal It is hinged on the lower surface of mobile photovoltaic panel, the line of the first end of multiple first connecting rods and the company of the first end of multiple second connecting rods The setting of line parallel interval, the second end of each first connecting rod and the second end of each second connecting rod are hinged on the top of support member Portion, what mobile photovoltaic panel was generally aligned in the same plane with the advanced position being stacked on fixed photovoltaic module and with fixed photovoltaic module Expanded position.

Further, mobile photovoltaic module includes first axle beam, is arranged on the lower surface of mobile photovoltaic panel, first connecting rod For two, the first end of two first connecting rods is respectively hinged at the both ends of first axle beam.

Further, mobile photovoltaic module includes second hinge beam, is arranged on the lower surface of mobile photovoltaic panel, second connecting rod For two, the first end of two second connecting rods is respectively hinged at the both ends of second hinge beam.

Further, first connecting rod includes first connecting portion and second connecting portion, the lower end of first connecting portion and supporting part Part is hinged, and the upper end of first connecting portion is fixedly connected with the lower end of second connecting portion, the upper end of second connecting portion and mobile photovoltaic Plate is hinged, and the connection angle of first connecting portion and second connecting portion is more than 90 °.

Further, the length of first connecting portion is more than the length of second connecting portion.

Further, the structure of first connecting rod and the structure of second connecting rod are identical,

Further, photovoltaic bracket system also includes drive component, and drive component drives with first connecting rod and/or second connecting rod Dynamic connection.

Further, drive component includes the first drive component and the second drive component, and the first drive component and first connect Bar drive connection, the second drive component and second connecting rod drive connection.

Further, fixed photovoltaic module is multiple, along support member length direction uniformly at intervals, each fix photovoltaic A mobile photovoltaic module is provided with component.

Further, fixed photovoltaic module includes fixed photovoltaic panel and fixed support, fixed support lower end are fixed on support The top of part, support bracket fastened upper end are fixedly connected with fixed photovoltaic panel.

Further, the first limiting section and the second limiting section are provided with the top of support member, when mobile photovoltaic panel is located at During advanced position, first connecting rod and/or second connecting rod lean on the first limiting section support, when mobile photovoltaic panel is located at expanded position, First connecting rod and/or second connecting rod lean on the second limiting section support.

Using the technical solution of the utility model, the utility model embodiment passes through extension light in unit area The mode of photovoltaic array, increase photovoltaic array can lay area, so as to add photovoltaic capacity, increase generated energy.Meanwhile this practicality It is new that there is maneuverability, stretching, extension while photovoltaic module level can be kept to shrink, stretch, increase when daytime, irradiation was big Generated energy；Long-distance transport is shunk when not generating electricity, and is reduced space hold volume, is readily transported.

Brief description of the drawings

Fig. 1 is the main structure diagram in expanded position for the utility model photovoltaic bracket system；

Fig. 2 is the overlooking the structure diagram in expanded position for the utility model photovoltaic bracket system；

Fig. 3 is the main structure diagram in advanced position for the utility model photovoltaic bracket system；

Fig. 4 is to be the utility model photovoltaic bracket system in the overall structure top view in expanded position.

Description of reference numerals：10th, support member；20th, fixed photovoltaic module；21st, fixed photovoltaic panel；22nd, fixed support； 30th, mobile photovoltaic module；31st, mobile photovoltaic panel；32nd, first connecting rod；33rd, second connecting rod；34th, first axle beam；35th, the second hinge Chain beam；321st, first connecting portion；322nd, second connecting portion.

Embodiment

The utility model is described in further detail with specific embodiment below in conjunction with the accompanying drawings, but not as to this practicality New restriction.

As shown in Figures 1 to 4, the utility model embodiment provides a kind of photovoltaic bracket system, including support member 10, Fixed photovoltaic module 20 and mobile photovoltaic module 30.Fixed photovoltaic module 20 is fixedly installed on the top of support member 10.It is mobile Photovoltaic module 30 includes mobile photovoltaic panel 31, first connecting rod 32 and second connecting rod 33, first connecting rod 32 and second connecting rod 33 Multiple, the first end (upper end) of each first connecting rod 32 and the first end (upper end) of each second connecting rod 33 are hinged on mobile light (lower surface of mobile photovoltaic panel 31 is the surface of 31 non-installation photovoltaic component of mobile photovoltaic panel, generally for the lower surface of volt plate 31 It is that backlight is set), the line of the upper end of multiple first connecting rods 32 and the line parallel interval of the upper end of multiple second connecting rods 33 are set Put, the second end (lower end) of each first connecting rod 32 and the second end (lower end) of each second connecting rod 33 are hinged on support member 10 top, mobile photovoltaic panel 31 is with the advanced position being stacked on fixed photovoltaic module 20 and with fixing photovoltaic module 20 In conplane expanded position.

The utility model embodiment is simple in construction, and in unit area by way of extension photovoltaic array, increases Add photovoltaic array to lay area, so as to add photovoltaic capacity, increase generated energy.Meanwhile the utility model has motor-driven spirit Activity, stretching, extension while photovoltaic module level can be kept to shrink, stretched when daytime, irradiation was big, increase generated energy；Long-range fortune It is defeated or shrink when not generating electricity, space hold volume is reduced, is readily transported.

It should be noted that the support member 10 in the utility model embodiment is container, mobile photovoltaic panel 31 is square Shape, above-mentioned first connecting rod 32 and second connecting rod 33 are two, and parallel interval is hinged on the top of support member 10.Above-mentioned first The upper end pin joint line of connecting rod 32 and second connecting rod 33 is rectangle, i.e., the line of two upper ends of first connecting rod 32 and two second The upper end wire length of connecting rod 33 is equal and parallel.By the upper end pin joint of first connecting rod 32 and the upper end pin joint of second connecting rod 33 It is arranged to above structure, can makes to move photovoltaic panel 31 and remain level side, is readily transported and can ensure at lighting angle In in zone of reasonableness.

Further, fixed photovoltaic module 20 includes fixed photovoltaic panel 21 and fixed support 22, the lower end of fixed support 22 are consolidated The top of support member 10 is scheduled on, the upper end of fixed support 22 is fixedly connected with fixed photovoltaic panel 21.In a kind of reality (not shown) Apply in example, above-mentioned fixed support 22 can use telescopic structure, i.e., fixed photovoltaic panel 21 can be with moving down on fixed support 22 Dynamic, above-mentioned move up and down refers to vertical direction in Fig. 1.

Preferably, mobile photovoltaic module 30 includes first axle beam 34 and second hinge beam 35.First axle beam 34 is set In the lower surface of mobile photovoltaic panel 31, first connecting rod 32 is two, and the upper end of two first connecting rods 32 is respectively hinged at the first hinge The both ends of chain beam 34.Second hinge beam 35 is arranged on the lower surface of mobile photovoltaic panel 31, and second connecting rod 33 is two, two second The upper end of connecting rod 33 is respectively hinged at the both ends of second hinge beam 35.

First axle beam 34 in the utility model embodiment is identical with the length of second hinge beam 35, first axle beam 34 Length be more than the length (length of vertical direction in Fig. 2) of mobile photovoltaic panel 31.Between between above-mentioned two first connecting rod 32 Gauge is identical with the length of first axle beam 34 from the spacing distance between two second connecting rods 33.Above-mentioned two first connects The lower end of bar 32 is respectively on the outside of the both ends of fixed photovoltaic module 20 (in Fig. 2 on the outside of the both ends of vertical direction).Above-mentioned two The lower end of second connecting rod 33 is located on the outside of the lower end pin joint of above-mentioned two first connecting rod 32 and close to the side wall of support member 10 Edge.

The structure of first connecting rod 32 is identical with the structure of second connecting rod 33, and first connecting rod 32 includes the He of first connecting portion 321 Second connecting portion 322, the lower end of first connecting portion 321 is be hinged with support member 10, and the upper end of first connecting portion 321 connects with second The lower end of socket part 322 is fixedly connected, and the upper end of second connecting portion 322 and mobile photovoltaic panel 31 are be hinged, and first connecting portion 321 It is more than 90 ° with the connection angle of second connecting portion 322.In the utility model embodiment, above-mentioned first connecting portion 321 and second connects For the angle of socket part 322 as shown in figure 1, the boss of the angle is located at outside, indent position is located at inner side.And the first connection The length in portion 321 is more than the length of second connecting portion 322.

Photovoltaic bracket system also includes drive component (not shown), drive component and first connecting rod 32 and/or second connecting rod 33 drive connections.Drive component includes the first drive component and the second drive component, the first driving in the utility model embodiment Component and the drive connection of first connecting rod 32, the second drive component and the drive connection of second connecting rod 33.

Drive component is set, first connecting rod 32 and second connecting rod 33 can be driven to rotate, so as to drive mobile photovoltaic panel 31 It is mobile, realize advanced position and expanded position transformation.

As shown in figure 4, in the utility model embodiment, fixed photovoltaic module 20 is multiple, along the length of support member 10 Direction uniformly at intervals, a mobile photovoltaic module 30 is provided with each fixed photovoltaic module 20.

In a kind of embodiment (not shown), the first limiting section and the second limiting section are provided with the top of support member, when When mobile photovoltaic panel is located at advanced position, first connecting rod and/or second connecting rod lean on the first limiting section support, when mobile photovoltaic panel position When expanded position, first connecting rod and/or second connecting rod lean on the second limiting section support.

Setting fixes the first limiting section and the second limiting section and the expanded position of mobile photovoltaic panel can be defined, to protect Demonstrate,prove positioning accuracy.In this embodiment, in addition to features described above, other features are identical with first embodiment, herein no longer Repeated.

When being transported using the utility model embodiment, make to move photovoltaic module 30 and be located at position shown in Fig. 3, that is, move Photovoltaic panel 31 is stacked in the fixed top of photovoltaic panel 21.When the utility model embodiment need not be transported and during illumination abundance, Mobile photovoltaic panel 31 is driven to be moved from advanced position to expanded position by drive component, so as to increase the utility model embodiment Illuminating area, improve photovoltaic power generation quantity.

Certainly, above is preferred embodiment of the present utility model.It should be pointed out that the ordinary skill for the art For personnel, on the premise of the utility model general principle is not departed from, some improvements and modifications can also be made, these improvement The scope of protection of the utility model is also considered as with retouching.

Claims (11)

1. A kind of 1. photovoltaic bracket system, it is characterised in that including：

   Support member (10)；

   Fixed photovoltaic module (20), it is fixedly installed on the top of the support member (10)；

   Mobile photovoltaic module (30), including mobile photovoltaic panel (31), first connecting rod (32) and second connecting rod (33), described first connects Bar (32) and the second connecting rod (33) are multiple, and the first end of each first connecting rod (32) and each described second connects The first end of bar (33) is hinged on the lower surface of the mobile photovoltaic panel (31), the first end of multiple first connecting rods (32) The line parallel intervals of first end of line and multiple second connecting rods (33) set, each first connecting rod (32) Second end and the second end of each second connecting rod (33) are hinged on the top of the support member (10), the mobile light Volt plate (31) have be stacked in advanced position on the fixed photovoltaic module (20) and with fixed photovoltaic module (20) position In conplane expanded position.
2. 2. photovoltaic bracket system according to claim 1, it is characterised in that the mobile photovoltaic module (30) includes first Hinge beam (34), is arranged on the lower surface of the mobile photovoltaic panel (31), and the first connecting rod (32) is two, two described the The first end of one connecting rod (32) is respectively hinged at the both ends of the first axle beam (34).
3. 3. photovoltaic bracket system according to claim 1 or 2, it is characterised in that the mobile photovoltaic module (30) includes Second hinge beam (35), the lower surface of the mobile photovoltaic panel (31) is arranged on, the second connecting rod (33) is two, two institutes The first end for stating second connecting rod (33) is respectively hinged at the both ends of the second hinge beam (35).
4. 4. photovoltaic bracket system according to claim 1, it is characterised in that the first connecting rod (32) includes the first connection Portion (321) and second connecting portion (322), the lower end of the first connecting portion (321) and the support member (10) are be hinged, described The upper end of first connecting portion (321) is fixedly connected with the lower end of the second connecting portion (322), the second connecting portion (322) Upper end and the mobile photovoltaic panel (31) it is be hinged, and the first connecting portion (321) and the second connecting portion (322) Connect angle and be more than 90 °.
5. 5. photovoltaic bracket system according to claim 4, it is characterised in that the length of the first connecting portion (321) is big Length in the second connecting portion (322).
6. 6. photovoltaic bracket system according to claim 1, it is characterised in that the structure of the first connecting rod (32) with it is described The structure of second connecting rod (33) is identical.
7. 7. photovoltaic bracket system according to claim 1, it is characterised in that the photovoltaic bracket system also includes driving group Part, the drive component and the first connecting rod (32) and/or the second connecting rod (33) drive connection.
8. 8. photovoltaic bracket system according to claim 7, it is characterised in that the drive component includes the first drive component With the second drive component, first drive component and the first connecting rod (32) drive connection, second drive component with Second connecting rod (33) drive connection.
9. 9. photovoltaic bracket system according to claim 1, it is characterised in that the fixed photovoltaic module (20) to be multiple, Along the support member (10) length direction uniformly at intervals, each fixed photovoltaic module (20) place is provided with an institute State mobile photovoltaic module (30).
10. 10. photovoltaic bracket system according to claim 1, it is characterised in that the fixed photovoltaic module (20) includes solid Determine photovoltaic panel (21) and fixed support (22), fixed support (22) lower end is fixed on the top of the support member (10), The upper end of the fixed support (22) is fixedly connected with the fixed photovoltaic panel (21).
11. 11. photovoltaic bracket system according to claim 1, it is characterised in that the top of the support member (10) is set There are the first limiting section and the second limiting section, when the mobile photovoltaic panel (31) is located at advanced position, the first connecting rod (32) And/or the second connecting rod (33) is leaned on first limiting section support, when the mobile photovoltaic panel (31) is located at expanded position, The first connecting rod (32) and/or the second connecting rod (33) lean on second limiting section support.