CN202549865U - Bracket for fixing solar assembly - Google Patents

Abstract

The utility model provides a bracket for fixing a solar assembly. The bracket for fixing the solar assembly comprises a rack, a first retractable landing leg, a second retractable landing leg and a first locking assembly, wherein the first end of the first retractable landing leg is hinged with the top of the rack at a first hinge point; the first end of the second retractable landing leg is hinged with the top of the rack at a second hinge point different from the first hinge point; the first locking assembly is arranged at the top of the rack, and comprises a first clamping piece for locking the solar assembly. An included angle of an acute angle or a right angle is formed between the pivotal axis of the first retractable landing leg and that of the second retractable landing leg, and both the first and second retractable landing legs are provided with second locking assemblies which comprise second clamping pieces for locking the solar assembly. The bracket provided by the utility model has the advantages of simple structure, simple operate, cost saving and convenience in use.

Description

The support that is used for fixing solar components

Technical field

The utility model relates to a kind of support that is used for fixing solar components.

Background technology

Solar power generation is a kind of new forms of energy; Have environmental protection, characteristics such as energy-conservation, inexhaustible; Under the environment of our times scope resource scarcity; Solar power generation has won more and more users' favor with its intrinsic characteristics, so solar components uses and give birth to, and its effect changes solar energy into electric energy exactly.The continuous progress of Along with people's environmental protection concept, the photovoltaic application system that is made up of solar components also more and more receives people's attention.Photovoltaic uses because characteristics are simply and easily used in its environmental protection, more and more receives people's attention.Especially at remote short of electricity and areas without electricity, solar energy power generating has more wide application prospect and importance.

Solar components generally all adopts plane toughened glass to be encapsulated as the slab construction of certain size.In order to obtain just many solar energy; The solar energy photovoltaic system employing is designed with the angle steel of certain angle or the supporting construction that aluminium section bar is formed; The support of photovoltaic application system just; Solar components is fixedly mounted on the support, makes the solar components surface vertical to the greatest extent with the angle of incidence of sunlight degree.Therefore, the support of photovoltaic application system plays the fixedly important function of whole system.

Existing solar energy photovoltaic system support adopts welding or bolt fastening structure mostly; Angle steel or aluminium section bar are fixed as the angle of design; Be stationary structure; Support can not be adjusted angle, complex structure and huge, and this structure is applied to large-scale ground photovoltaic plant or rooftop photovoltaic systems mostly.In order to guarantee the stability of whole system, increase the structural strength of system, lower support degree of disturbing to the solar photovoltaic assembly effect on structure, guarantee the stable operation of system, whole photovoltaic system configuration is huge.And need special workmen that system is carried out Installation and Debugging.But the rare area of remote short of electricity areas without electricity, particularly population distribution, the transmission line and the equipment that need set up certain scale in addition could satisfy people to electricity needs, and can the corresponding cost that increases circuit and plant maintenance.

The utility model content

The utility model aim to provide a kind of simple in structure, simple to operate, practice thrift cost and the support that is used for fixing solar components easy to use.

To achieve these goals, the utility model provides a kind of support that is used for fixing solar components, comprising: rack; First telescopic outrigger, the top of its first end and rack is articulated in first pin joint; Second telescopic outrigger, the top of its first end and rack is articulated in second pin joint that is different from first pin joint; First latch assembly is arranged on the top of rack, and first latch assembly comprises first shackle member that is used to lock solar components; Wherein, Form acute angle angle or right angle angle between the pivot axis of the pivot axis of first telescopic outrigger and second telescopic outrigger; And, being equipped with second latch assembly on first telescopic outrigger and second telescopic outrigger, second latch assembly comprises second shackle member that is used to lock solar components.

Further; The top of rack is connected with the supporting leg link; First telescopic outrigger and second telescopic outrigger are all hinged with the supporting leg link; The supporting leg link is splayed, comprise first connecting portion, second connecting portion and be connected first connecting portion and second connecting portion between the 3rd connecting portion, form acute angle angle or right angle angle between first connecting portion and second connecting portion; First telescopic outrigger and first connecting portion are articulated in first pin joint, and second telescopic outrigger and second connecting portion are articulated in second pin joint.

Further, the top of rack has upwardly extending two stopper sections, and two stopper sections are positioned at the outside of first connecting portion and second connecting portion respectively.

Further, first shackle member is provided with movable along the longitudinally, and first shackle member comprises sticking department and first Access Division that is connected with sticking department and cooperates with solar components, and first latch assembly also comprises: base is positioned at the below of first shackle member; First clamping screw is fixedly connected and passes sticking department with base; Locking knob is arranged on the top of sticking department, and locking knob has the first locking screw that cooperates with first thread segment of first clamping screw.

Further, first Access Division is L-shaped.

Further, first telescopic outrigger and second telescopic outrigger include: the first segment supporting leg, and hinged with the top of rack; The second joint supporting leg; Be set in the setting that the first segment supporting leg is outer and can move along the axially-displaceable of first segment supporting leg; The inner of the second joint supporting leg is provided with and is used for first segment supporting leg and second is saved the 3rd latch assembly that supporting leg locks together, and second latch assembly is arranged on the second joint supporting leg.

Further; Second shackle member comprises second Access Division and first articulated section that is connected with second Access Division that cooperates with solar components; Second latch assembly also comprises: strutting piece; Be slidably disposed on the second joint supporting leg, strutting piece has second articulated section that pivots and be connected with first articulated section.

Further, second Access Division is L-shaped.

Further, first segment supporting leg outer surface has chute, and the second joint supporting leg has the second locking screw, and the 3rd latch assembly comprises: the locking shell fragment is arranged in the chute and has inner chamber; Second clamping screw, its second thread segment are located in the second locking screw, and the front end of second clamping screw is positioned at the inner chamber of locking shell fragment.

Further, the support that is used for fixing solar components of the utility model also comprises the base of the bottom that is connected rack pivotly.

Further, the support that is used for fixing solar components of the utility model also comprises and is used for the 4th latch assembly that the bottom with base and rack locks together.

Further, the support that is used for fixing solar components of the utility model also comprises the incorporate controller-energy-storage module that is removably disposed in the rack.

Further, the first pin joint place and the second pin joint place are provided with and are used for the 5th latch assembly that first segment supporting leg and supporting leg link are locked together.

In the technical scheme of the utility model, the support that is used for fixing solar components of the utility model comprises: rack, first telescopic outrigger, second telescopic outrigger, first latch assembly and second latch assembly.Rack conveniently holds incorporate controller-energy-storage module, and first telescopic outrigger, second telescopic outrigger are used for the support of solar components, and first latch assembly and second latch assembly are used for the fixing of solar components.

First end of first telescopic outrigger and the top of rack are articulated in first pin joint; First end of second telescopic outrigger and the top of rack are articulated in second pin joint that is different from first pin joint, form acute angle angle or right angle angle between the pivot axis of the pivot axis of first telescopic outrigger and second telescopic outrigger, and first and second telescopic outriggers all have folded state and open mode; Both all can regulate by retractable; When opening, first and second telescopic outriggers all need corresponding elongation, when folding; First and second telescopic outriggers fold together, and are parallel with vertical frame of rack; First latch assembly is arranged on the top of rack, and first latch assembly comprises first shackle member that is used to lock solar components; Second latch assembly is arranged on first telescopic outrigger and second telescopic outrigger, and second latch assembly comprises second shackle member that is used to lock solar components.

The support that is used for fixing solar components of the utility model is the Collapsible mobile structure, and volume after folding is little, it is little to take up room, convenient transportation.Support is easy to operate; Particularly; During use, the length that screws out first and second telescopic outriggers and regulate first and second telescopic outriggers makes the bottom of rack and second end limit of formation of first and second telescopic outriggers and the support of two points form; Solar components is placed on first and second telescopic outriggers; The top of solar components is locked by first shackle member, and the bottom of solar components is locked by two second shackle member, adopts 3 fixed form fixed solar assemblies not only solid and reliable but also save material.After solar components is locked, positive and negative lead wires being connected to the input on incorporate controller-energy-storage module, is that energy-storage units provides electric power through controller.After energy-storage units stored electric power, controller can carry out the output of electric power through output.

The support of the utility model is simple and practical, quick for installation, simple to operate, easy to maintenance, do not need the professional to install, do not need basic foundation construction and professional construction personnel to instruct; Open support and just can use photovoltaic system; Both practiced thrift cost; Easy to maintenance, can offer convenience for the user again.

Description of drawings

The Figure of description that constitutes the application's a part is used to provide the further understanding to the utility model, and illustrative examples of the utility model and explanation thereof are used to explain the utility model, do not constitute the improper qualification to the utility model.In the accompanying drawings:

Fig. 1 shows the sketch map according to the stereochemical structure of the embodiment of the support that is used for fixing solar components of the utility model;

Fig. 2 shows the perspective view of support under open mode of Fig. 1;

Fig. 3 shows the perspective view of the support of Fig. 1 in another angle;

Fig. 4 shows the local enlarged diagram in A place of the support of Fig. 3;

Fig. 5 shows the cross-sectional schematic of first latch assembly of the support of Fig. 1;

Fig. 6 shows the structural representation of second latch assembly of the support of Fig. 1;

Fig. 7 shows the schematic side view of second latch assembly of Fig. 6;

Fig. 8 shows the cross-sectional schematic of the 3rd latch assembly of the support of Fig. 1;

Fig. 9 shows the cross-sectional schematic of other direction of the 3rd latch assembly of Fig. 8;

Figure 10 shows the cross-sectional schematic of the 3rd latch assembly of the support of Fig. 1; And

Figure 11 shows the cross-sectional schematic of the 4th latch assembly of the support of Fig. 1.

Embodiment

Need to prove that under the situation of not conflicting, embodiment and the characteristic among the embodiment among the application can make up each other.Below with reference to accompanying drawing and combine embodiment to specify the utility model.

In conjunction with referring to Fig. 1 to Fig. 6, the support that is used for fixing solar components of present embodiment comprises: rack 10, first telescopic outrigger 20, second telescopic outrigger 30, first latch assembly 40 and second latch assembly 50.Rack 10 conveniently holds the support that incorporate controller-energy-storage module 70, the first telescopic outriggers 20, second telescopic outrigger 30 are used for solar components 1, and first latch assembly 40 and second latch assembly 50 are used for the fixing of solar components 1.

First end of first telescopic outrigger 20 and the top of rack 10 are articulated in first pin joint; First end of second telescopic outrigger 30 and the top of rack 10 are articulated in second pin joint that is different from first pin joint; Form acute angle angle or right angle angle between the pivot axis of the pivot axis of first telescopic outrigger 20 and second telescopic outrigger 30; First and second telescopic outriggers all have folded state and the open mode shown in Fig. 2 shown in Fig. 1 and Fig. 3, and both all can regulate by retractable, when opening; First and second telescopic outriggers all need corresponding elongation; When folding, first and second telescopic outriggers fold together, and are parallel with vertical frame of rack 10; First latch assembly 40 is arranged on the top of rack 10, and first latch assembly 40 comprises first shackle member 41 that is used to lock solar components 1; Second latch assembly 50 is arranged on first telescopic outrigger 20 and second telescopic outrigger 30, and second latch assembly 50 comprises second shackle member 51 that is used to lock solar components 1.

The support that is used for fixing solar components of present embodiment is the Collapsible mobile structure, and volume after folding is little, it is little to take up room, convenient transportation.Support is easy to operate; Particularly, during use, as shown in Figure 2; The length that screws out first and second telescopic outriggers and regulate first and second telescopic outriggers; Make the bottom of rack 10 and second end limit of formation of first and second telescopic outriggers and the support of two points form, solar components 1 be placed on first and second telescopic outriggers that the top of solar components 1 is by 41 lockings of first shackle member; The bottom of solar components 1 is by two second shackle member 51 locking, adopts 3 fixed form fixed solar assemblies 1 not only solid and reliable but also save material.After solar components 1 is locked, positive and negative lead wires being connected to the input on incorporate controller-energy-storage module 70, is that energy-storage units provides electric power through controller.After energy-storage units stored electric power, controller can carry out the output of electric power through output.

The length of first and second telescopic outriggers can change the angle on support and ground, can provide various installations needed angle for solar components 1, guarantees that the outer surface of solar components 1 is vertical as far as possible with the incidence angle of sunlight, improves system's generating efficiency.

Preferably, the support of present embodiment also comprises the incorporate controller-energy-storage module 70 that is removably disposed in the rack 10, and incorporate controller-energy-storage module 70 can be dismantled use according to actual conditions.When solar components generates electricity under daylight, can incorporate controller-energy-storage module 70 be taken off from rack 10, place charging in the cool, the damage that can avoid energy-storage module high temperature to cause.Incorporate controller-energy-storage module 70 unloads in the rack 10 on the after-poppet can place sandbag or balancing weight, increases weight support frame, and mounting system can be resisted bad weathers such as blast, has guaranteed the firm and good operation of support.When after energy-storage units stores electric power, exporting, also can be placed on indoor incorporate controller-energy-storage module 70 or other local uses, use simply portable.

Incorporate controller-energy-storage module 70 is designed to detachable form with folding rack; Like this; Can dismantle use according to actual conditions, especially when solar components generates electricity under daylight, incorporate controller-energy-storage module 70 pulled down; Place charging in the cool, the damage that can avoid energy-storage module high temperature to cause; Only need move incorporate controller-energy-storage module 70 during use, and needn't move entire bracket, and be convenient to the whole system maintenance.

Like Fig. 3 and shown in Figure 4; The top of rack 10 is connected with supporting leg link 60; First telescopic outrigger 20 and second telescopic outrigger 30 are all hinged with supporting leg link 60; Supporting leg link 60 is splayed, comprise first connecting portion, second connecting portion and be connected first connecting portion and second connecting portion between the 3rd connecting portion, form acute angle angle or right angle angle between first connecting portion and second connecting portion; First telescopic outrigger 20 and first connecting portion are articulated in first pin joint, and second telescopic outrigger 30 and second connecting portion are articulated in second pin joint.

Preferably, shown in figure 11, the first pin joint place and the second pin joint place are provided with and are used for the 5th latch assembly 61 that first segment supporting leg 21 and supporting leg link 60 are locked together.When the first and second telescopic outrigger Unscrews put in place, first and second telescopic outriggers are locked through regulating the 5th latch assembly 61.

As shown in Figure 4, the top of rack 10 has the outside that 11, two stopper sections 11, upwardly extending two stopper sections lay respectively at first connecting portion and second connecting portion.Stopper section 11 has prevented the distortion of first connecting portion and second connecting portion effectively, helps to improve the stability of support.

Like Fig. 4 and shown in Figure 5, first shackle member 41 is provided with movable along the longitudinally, like this, and the fixing solar components 1 of different-thickness.First shackle member 41 comprises sticking department 411 and first Access Division 412 that is connected with sticking department 411 and cooperates with solar components 1, and this first Access Division 412 is preferably L-shaped, and first latch assembly 40 also comprises: base 413 is positioned at the below of first shackle member 41; First clamping screw 414 is fixedly connected and passes sticking department 411 with base 413; Locking knob 415 is arranged on the top of sticking department 411, and locking knob 415 has the first locking screw that cooperates with first thread segment of first clamping screw 414.Like Fig. 2 and shown in Figure 5; First Access Division 412 is stuck on the outer surface of solar components 1; Through screwing locking knob 415; It is cooperated with first clamping screw 414, increase or reduce the distance between base 413 and the sticking department 411 and then make the Access Division 412 of winning to lock the solar components 1 of different-thickness.

Like Fig. 2, Fig. 8 and shown in Figure 9, first telescopic outrigger 20 and second telescopic outrigger 30 include: the first segment supporting leg 21 and the second joint supporting leg 22, and wherein, first segment supporting leg 21 is hinged with the top of rack 10; The second joint supporting leg 22 is set in the 21 outer settings that also can move along the axially-displaceable of first segment supporting leg 21 of first segment supporting leg; The inner of the second joint supporting leg 22 is provided with and is used for that first segment supporting leg 21 is arranged on second with second the 3rd latch assembly 23, the second latch assemblies 50 that lock together of joint supporting leg 22 and saves on the supporting leg 22.

Like Fig. 6 and shown in Figure 7; Second shackle member 51 comprises second Access Division 511 and first articulated section 512 that is connected with second Access Division 511 that cooperates with solar components 1; Second Access Division 511 is preferably L-shaped; Second latch assembly 50 also comprises: strutting piece 52, be slidably disposed on the second joint supporting leg 22, and strutting piece 52 has second articulated section 521 that pivots and be connected with first articulated section 512.Can adapt to the installation of the various angle solar components of support; Particularly; The position of adjustment strutting piece 52 on the second joint supporting leg 22, the back lock support part 52 of adjusting to the right place is again through first articulated section 512 that pivots; Thereby make it rotate the position of adjusting second Access Division 511 relative to second articulated section 521; The bottom that second Access Division 511 is used to hold solar components 1 when being adjusted to position shown in Figure 7 locks together first articulated section 512 and second articulated section 521, through adjusting the solar components 1 that distance between second Access Division 511 and the strutting piece 52 adapts to different-thickness.

Like Fig. 8 and shown in Figure 9, first segment supporting leg 21 outer surfaces have chute, and the second joint supporting leg 22 has the second locking screw, and the 3rd latch assembly 23 comprises: locking shell fragment 231 is arranged in the chute and has inner chamber; Second clamping screw 232, its second thread segment are located in the second locking screw, and the front end of second clamping screw 232 is positioned at the inner chamber of locking shell fragment 231.Through screw second clamping screw 232 can make locking shell fragment 231 be close to first segment supporting leg 21 chute bottom land so that first segment supporting leg 21 and second saved supporting leg 22 lock together.Certainly, the locking between the first segment supporting leg 21 and the second joint supporting leg 22 also can realize through other position limiting structures.Before placing solar components, first segment supporting leg 21 and 22 lockings of the second joint supporting leg are helped integrally-built stability.

To shown in Figure 3, preferably, the present embodiment support also comprises the base 80 of the bottom that is connected rack 10 pivotly like Fig. 1, and base 80 is used for balance support.Base 80 can carry out the adjusting of different angles; Base 80 contacts the stability that can guarantee after entire bracket is opened with the large tracts of land on ground; The fail safe that the increase system uses makes support can adapt to various environments for use, guarantees that support can satisfy various user demands.

Further preferably; Shown in figure 10; The present embodiment support also comprises and is used for the 4th latch assembly 81 that the bottom with base 80 and rack 10 locks together; After the pivotal adjustment of base 80 puts in place, the bottom of base 80 and rack 10 is locked together, make both not relatively rotate through operating the 4th latch assembly 81.

The preferred embodiment that the above is merely the utility model is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within the spirit and principle of the utility model, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection range of the utility model.

Claims (13)

1. a support that is used for fixing solar components is characterized in that, comprising:

Rack (10);

First telescopic outrigger (20), the top of its first end and said rack (10) is articulated in first pin joint;

Second telescopic outrigger (30), the top of its first end and said rack (10) is articulated in second pin joint that is different from said first pin joint;

First latch assembly (40) is arranged on the top of said rack (10), and said first latch assembly (40) comprises first shackle member (41) that is used to lock solar components (1);

Wherein, Form acute angle angle or right angle angle between the pivot axis of the pivot axis of said first telescopic outrigger (20) and second telescopic outrigger (30); And; Be equipped with second latch assembly (50) on said first telescopic outrigger (20) and second telescopic outrigger (30), said second latch assembly (50) comprises second shackle member (51) that is used to lock said solar components (1).

2. support according to claim 1; It is characterized in that; The top of said rack (10) is connected with supporting leg link (60); Said first telescopic outrigger (20) and second telescopic outrigger (30) are all hinged with said supporting leg link (60); Said supporting leg link (60) is splayed, comprises first connecting portion, second connecting portion and is connected the 3rd connecting portion between said first connecting portion and second connecting portion, forms acute angle angle or right angle angle between said first connecting portion and second connecting portion; Said first telescopic outrigger (20) is articulated in said first pin joint with first connecting portion, and said second telescopic outrigger (30) is articulated in said second pin joint with second connecting portion.

3. support according to claim 2 is characterized in that, the top of said rack (10) has upwardly extending two stopper sections (11), and said two stopper sections (11) lay respectively at the outside of said first connecting portion and second connecting portion.

4. support according to claim 1; It is characterized in that; Said first shackle member (41) is provided with movable along the longitudinally; And said first shackle member (41) comprises sticking department (411) and first Access Division (412) that is connected and cooperates with said solar components (1) with said sticking department (411), and said first latch assembly (40) also comprises:

Base (413) is positioned at the below of said first shackle member (41);

First clamping screw (414) is fixedly connected and passes said sticking department (411) with said base (413);

Locking knob (415) is arranged on the top of said sticking department (411), and said locking knob (415) has the first locking screw that cooperates with first thread segment of said first clamping screw (414).

5. support according to claim 4 is characterized in that, said first Access Division (412) is L-shaped.

6. support according to claim 1 is characterized in that, said first telescopic outrigger (20) and second telescopic outrigger (30) include:

First segment supporting leg (21), hinged with the top of said rack (10);

The second joint supporting leg (22); Be set in the setting that said first segment supporting leg (21) is outer and can move along the axially-displaceable of said first segment supporting leg (21); The inner of the said second joint supporting leg (22) is provided with and is used for said first segment supporting leg (21) and second is saved the 3rd latch assembly (23) that supporting leg (22) locks together, and said second latch assembly (50) is arranged on the said second joint supporting leg (22).

7. support according to claim 6; It is characterized in that; Said second shackle member (51) comprises second Access Division (511) and first articulated section (512) that is connected with said second Access Division (511) that cooperates with said solar components (1), and said second latch assembly (50) also comprises:

Strutting piece (52) is slidably disposed on the said second joint supporting leg (22), and said strutting piece (52) has second articulated section (521) that pivots and be connected with said first articulated section (512).

8. support according to claim 7 is characterized in that, said second Access Division (511) is L-shaped.

9. support according to claim 6 is characterized in that, said first segment supporting leg (21) outer surface has chute, and the said second joint supporting leg (22) has the second locking screw, and said the 3rd latch assembly (23) comprising:

Locking shell fragment (231) is arranged in the said chute and has inner chamber;

Second clamping screw (232), its second thread segment are located in the said second locking screw, and the front end of said second clamping screw (232) is positioned at the inner chamber of said locking shell fragment (231).

10. support according to claim 1 is characterized in that, also comprises the base (80) of the bottom that is connected said rack (10) pivotly.

11. support according to claim 10 is characterized in that, also comprises being used for the 4th latch assembly (81) that the bottom with said base (80) and rack (10) locks together.

12. support according to claim 1 is characterized in that, also comprises the incorporate controller-energy-storage module (70) that is removably disposed in the said rack (10).

13. support according to claim 2 is characterized in that, said first pin joint place and the said second pin joint place are provided with and are used for the 5th latch assembly (61) that said first segment supporting leg (21) and supporting leg link (60) are locked together.

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