CN219592325U - Solar bracket and solar folding bag - Google Patents

Abstract

The technical scheme of the utility model discloses a solar bracket and a solar folding bag, wherein the solar bracket comprises a first supporting rod, a second supporting rod, a connecting component and a fixing piece, and the first supporting rod is provided with a first end and a second end which are opposite; the connecting component comprises a first connecting piece arranged at the first end and a second connecting piece arranged at the second end and is used for connecting the solar photovoltaic panel; the fixing piece is arranged between the first connecting piece and the second connecting piece and is connected with the first supporting rod; the second support rod is rotatably connected with the fixing piece, and the solar support is provided with a storage state that the second support rod is stored in the plane where the first support rod is located, and a unfolding state that the second support rod is rotated to form an included angle with the first support rod. The first support rod, the second support rod, the connecting component and the fixing piece of the solar support are small in area, the shading area of the solar support to the solar photovoltaic panel is greatly reduced, and therefore the power generation efficiency of the solar folding bag is improved.

Description

Solar bracket and solar folding bag

Technical Field

The utility model relates to the technical field of new energy, in particular to a solar bracket and a solar folding bag.

Background

The solar double-glass folding bag has the advantages that the two sides of the solar double-glass folding bag can generate electricity, the generated electricity is greatly improved, the power generation conversion rate of the solar double-glass folding bag is higher than that of a common folding bag, and the solar double-glass folding bag is more and more widely applied. However, the conventional folding bag support blocks sunlight irradiated to one side of the solar folding bag due to the large size, so that the power generation rate is reduced.

Disclosure of Invention

The utility model mainly aims to provide a solar bracket which aims to improve the power generation efficiency of a solar folding bag.

The technical scheme of the utility model provides a solar bracket, which comprises the following components:

a first support bar having opposite first and second ends;

the connecting assembly comprises a first connecting piece arranged at the first end and a second connecting piece arranged at the second end, and is used for connecting a solar photovoltaic panel;

the fixing piece is arranged between the first connecting piece and the second connecting piece and is connected with the first supporting rod;

the second support rod is rotatably connected with the fixing piece, the solar support is provided with a storage state in which the second support rod is stored in the plane where the first support rod is located, and the second support rod rotates to an unfolding state in which an included angle is formed between the second support rod and the first support rod.

In an embodiment, the solar bracket further comprises an adjusting component, the adjusting component is connected with the second connecting piece and the second supporting rod, and when the solar bracket is in the unfolded state, the adjusting component is used for adjusting an included angle between the first supporting rod and the second supporting rod.

In one embodiment, the adjusting assembly comprises an adjusting belt and a buckling piece, wherein the buckling piece is arranged on the adjusting belt, and the second connecting piece is provided with a through hole for the adjusting belt to pass through; the adjusting belt is provided with a free end, a fixed end connected with the free end of the second supporting rod and a body positioned between the free end and the fixed end, the free end of the adjusting belt penetrates through the through hole, and after turning back, the adjusting belt is connected with the body of the adjusting belt through the buckling piece.

In an embodiment, the fastening member includes a first fastening member and a plurality of second fastening members, the first fastening member is disposed at a free end of the adjusting belt, the plurality of second fastening members are disposed on the body of the adjusting belt and are arranged at intervals along a length direction of the adjusting belt, and the first fastening member is fastened with one of the second fastening members.

In an embodiment, the adjusting assembly further includes a first elastic member, one end of the first elastic member is connected to the fixing member, the other end of the first elastic member is connected to the body of the adjusting belt, and the plurality of second fastening members are disposed between the second connecting member and the first elastic member.

In an embodiment, the second connecting piece is provided with a clamping groove, and when the solar bracket is in the storage state, the free end of the second supporting rod is stored in the clamping groove.

In an embodiment, the angle formed between the second support bar and the first support bar extending in the direction towards the second end is in the range of 30 ° -150 ° when the solar rack is in the unfolded state.

In one embodiment, the first connecting piece can slide along the length direction of the first supporting rod; the solar bracket further comprises a second elastic piece, one end of the second elastic piece is connected with the first connecting piece, and the other end of the second elastic piece is connected with the fixing piece.

In an embodiment, the first support rod includes two long rods, the two long rods are arranged side by side and have a distance, and the connecting component and the fixing piece are arranged between the two long rods and are connected with the two long rods.

The utility model also provides a solar folding bag, which comprises a solar photovoltaic panel and a solar bracket, wherein the solar bracket comprises:

a first support bar having opposite first and second ends;

the connecting assembly comprises a first connecting piece arranged at the first end and a second connecting piece arranged at the second end, and is used for connecting a solar photovoltaic panel;

the fixing piece is arranged between the first connecting piece and the second connecting piece and is connected with the first supporting rod;

the solar bracket is provided with a storage state in which the second support rod is stored in the plane where the first support rod is located, and an unfolding state in which the second support rod is rotated to form an included angle with the first support rod;

the first support rod is arranged on one side face of the solar photovoltaic panel, the first connecting piece is connected to the edge of the top of the solar photovoltaic panel, and the second connecting piece is connected to the edge of the bottom of the solar photovoltaic panel.

According to the technical scheme, the connecting assemblies are arranged at two ends of the first supporting rod so as to connect the first supporting rod with the solar photovoltaic panel; the second support rod is rotatably connected with the fixing piece, so that the solar bracket has a storage state and an unfolding state, and is convenient to store and use; the area of the first support rod, the second support rod, the connecting component and the fixing piece is small, the shading area of the solar support to the solar photovoltaic panel is greatly reduced, and therefore the power generation efficiency of the solar folding bag is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view of a solar rack in a stored state;

FIG. 2 is a schematic view of the solar rack in an expanded state;

FIG. 3 is a schematic view of another visual structure of the solar rack in the unfolded state;

FIG. 4 is an enlarged view of FIG. 3 at A;

FIG. 5 is a side view of a solar rack in an expanded state;

fig. 6 is a schematic view of the structure of the solar folding bag.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				10	Solar folding bag	111	First end
100	Solar energy bracket	112	Second end
				200	Solar photovoltaic panel	141	Through opening
110	First support rod	142	Clamping groove
				120	Second support rod	161	Adjusting belt
130	First connecting piece	162	First fastening piece
				140	Second connecting piece	163	First elastic piece
150	Fixing piece	170	Second elastic piece
				160	Adjusting assembly

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. 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, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present utility model, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, if the meaning of "and/or" is presented throughout this document, it is intended to include three schemes in parallel, taking "a and/or B" as an example, including a scheme, or B scheme, or a scheme where a and B meet simultaneously. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

Referring to fig. 1 to 6, the present utility model provides a solar bracket 100, which includes a first support bar 110, a second support bar 120, a connecting assembly and a fixing member 150, wherein the first support bar 110 has a first end 111 and a second end 112 opposite to each other; the connecting assembly comprises a first connecting piece 130 arranged at the first end 111 and a second connecting piece 140 arranged at the second end 112, and is used for connecting the solar photovoltaic panel 200; the fixing member 150 is disposed between the first connecting member 130 and the second connecting member 140, and is connected to the first supporting rod 110; the second support rod 120 is rotatably connected to the fixing member 150, and the solar bracket 100 has a storage state in which the second support rod 120 is stored in the plane of the first support rod 110, and a deployed state in which the second support rod 120 is rotated to form an included angle with the first support rod 110.

Specifically, a solar bracket 100 is used for installing and fixing a solar photovoltaic panel 200, the solar bracket 100 includes a first support bar 110, a second support bar 120, a connecting assembly and a fixing member 150, the first support bar 110 is installed on one side of the solar photovoltaic panel 200, and the first support bar 110 has a first end 111 and a second end 112 opposite to each other. The connection assembly includes a first connection member 130 and a second connection member 140, the first connection member 130 is disposed at the first end 111 of the first support bar 110, and the second connection member 140 is disposed at the second end 112 of the first support bar 110. The first connecting piece 130 and the second connecting piece 140 are used for connecting the solar photovoltaic panel 200, and the first connecting piece 130 and the second connecting piece 140 can be fixedly connected with the solar photovoltaic panel 200 or can be detachably connected with the solar photovoltaic panel. The first support bar 110 is disposed on one side of the solar photovoltaic panel 200, and has a first end 111 connected to one side of the solar photovoltaic panel 200 through the first connection member 130, and a second end 112 connected to the opposite side of the solar photovoltaic panel 200 through the second connection member 140, so as to mount the first support bar 110 on the solar photovoltaic panel 200.

The fixing member 150 is disposed on the first supporting rod 110 and between the first connecting member 130 and the second connecting member 140. One end of the second support rod 120 is connected to the fixing member 150, and the free end of the second support rod 120 can rotate with the fixing member 150 as a rotation center, so that the second support rod 120 can be accommodated in a plane where the first support rod 110 is located, and the second support rod 120 can also rotate until an included angle is formed between the second support rod 120 and the first support rod 110, and the included angle is θ. When the second support rod 120 is stored in the plane where the first support rod 110 is located, the solar support 100 is in a storage state, and when the second support rod 120 rotates to form an included angle with the first support rod 110, the solar support 100 is in a unfolding state, and the second support rod 120 plays a role in supporting the first support rod 110.

The materials of the first support bar 110 and the second support bar 120 may be metal, such as stainless steel wire. Stainless steel wires have good metal strength and load bearing capacity to support the solar photovoltaic panel 200; the stainless steel wire also has the characteristics of light weight and low cost, and can reduce the weight of the solar bracket 100 and the production cost. The connecting component and the fixing member 150 may be made of plastic, which is a polymer compound polymerized by polyaddition or polycondensation, and has the characteristics of light weight, low cost and convenient processing.

The solar bracket 100 connects the first support bar 110 with the solar photovoltaic panel 200 by disposing connection assemblies at both ends of the first support bar 110; the second support bar 120 is rotatably connected with the fixing member 150, so that the solar bracket 100 has a storage state and an unfolding state, and is convenient to store and use; the areas of the first support bar 110, the second support bar 120, the connection assembly and the fixing member 150 are small, and the light shielding area of the solar bracket 100 to the solar photovoltaic panel 200 is greatly reduced, thereby improving the power generation efficiency of the solar folding bag 10.

In an embodiment, the solar bracket 100 further includes an adjusting component 160, the adjusting component 160 is connected to the second connecting piece 140 and the second supporting rod 120, and the adjusting component 160 is used for adjusting an included angle between the first supporting rod 110 and the second supporting rod 120 when the solar bracket 100 is in the unfolded state.

Referring to fig. 2 and 3, the solar bracket 100 further includes an adjusting assembly 160, wherein the adjusting assembly 160 is connected to the second connecting member 140 and the second supporting rod 120, and the adjusting assembly 160 is located between the second connecting member 140 and the second supporting rod 120 when the solar bracket 100 is in the unfolded state. The length of the adjustment assembly 160 may be lengthened or shortened, and the longer the length of the adjustment assembly 160, the greater the angle between the first support bar 110 and the second support bar 120. The included angle between the first support rod 110 and the second support rod 120 can be adjusted through the adjusting component 160, so that the unfolding amplitude of the solar support 100 is adjusted, the inclination angle of the solar photovoltaic panel 200 during installation is adjusted, the solar photovoltaic panel 200 can receive better illumination at different times, and the power generation efficiency of the solar folding bag 10 is improved.

In one embodiment, the adjusting assembly 160 includes an adjusting belt 161 and a fastening member, the fastening member is disposed on the adjusting belt 161, and the second connecting member 140 is provided with a through hole 141 through which the adjusting belt 161 passes; the adjusting belt 161 has a free end, a fixed end connected to the free end of the second support bar 120, and a body between the free end and the fixed end, and the free end of the adjusting belt 161 passes through the through-hole 141 and is connected to the body of the adjusting belt 161 by a fastening member after being folded back.

Referring to fig. 2 and 3, the adjusting assembly 160 includes an adjusting belt 161, the adjusting belt 161 has a free end, a fixed end, and a body disposed between the free end and the fixed end of the adjusting belt 161. The fixed end of the adjusting belt 161 is connected with the free end of the second support bar 120, the free end of the adjusting belt 161 passes through the through hole 141, and is connected with the body of the adjusting belt 161 through the fastening piece after turning back. When the solar bracket 100 is in the unfolded state, the adjusting belt 161 is located between the first support bar 110 and the second support bar 120 and connects the first support bar 110 and the second support bar 120, and forms a triangle together with the first support bar 110 and the second support bar 120, thereby increasing the stability of the structure of the solar bracket 100. The free end of the adjusting belt 161 is connected with the body of the adjusting belt 161 through a fastening piece after being folded back, and the included angle between the first supporting rod 110 and the second supporting rod 120 is different through the difference of the positions of the free end of the adjusting belt 161 on the body of the adjusting belt 161. The closer the free end of the adjustment belt 161 is positioned on the body of the adjustment belt 161 to the second connecting member 140, the smaller the angle between the first support bar 110 and the second support bar 120; the closer the free end of the adjustment belt 161 is positioned on the body of the adjustment belt 161 to the second support bar 120, the greater the angle between the first support bar 110 and the second support bar 120. When the solar bracket 100 is in the storage state, the body of the adjusting belt 161 is folded and then stored in the plane of the first support bar 110.

In an embodiment, the fastening members include a first fastening member 162 and a plurality of second fastening members, the first fastening member 162 is disposed at a free end of the adjusting belt 161, and the plurality of second fastening members are disposed on the body of the adjusting belt 161 and are arranged at intervals along a length direction of the adjusting belt 161, and the first fastening member 162 is fastened to one of the second fastening members.

Referring to fig. 2 and 3, the fastening members include a first fastening member 162 and a plurality of second fastening members (not shown) disposed on the body of the adjustment belt 161 and arranged at intervals along the length direction of the adjustment belt 161. The second fastening member may be two, three, four or more. The first fastening member 162 is disposed at a free end of the adjusting belt 161, and after the free end of the adjusting belt 161 is folded back through the through hole 141, the free end of the adjusting belt 161 is fastened to one of the second fastening members by the first fastening member 162 so as to be connected to the body of the adjusting belt 161. When the first fastening member 162 is fastened to the second fastening member near the fixed end of the adjusting strap 161, the angle between the first support bar 110 and the second support bar 120 is the smallest in the unfolded state of the solar bracket 100; when the first fastening member 162 is fastened to the second fastening member far from the fixed end of the adjusting strap 161, the included angle between the first support bar 110 and the second support bar 120 is the largest in the unfolded state of the solar bracket 100. The first fastening member 162 is fastened with a second fastening member at a different position to adjust the angle between the first support rod 110 and the second support rod 120.

The free end of the adjusting belt 161 may be provided with one first fastening member 162, or may be provided with a plurality of first fastening members 162, for example, the first fastening members 162 may be provided with two, three, four or more. The first fastening members 162 are disposed at the free ends of the adjustment belt 161 and are spaced apart along the length of the adjustment belt 161. The distance between two adjacent first fastening components 162 is the same as the distance between two adjacent second fastening components. When the free end of the adjusting belt 161 is connected to the body of the adjusting belt 161, a first fastening member 162 may be fastened to a second fastening member remote from the fixed end of the adjusting belt 161; the first fastening members 162 and the second fastening members may be fastened together in a one-to-one correspondence. When the plurality of first fastening members 162 are fastened in one-to-one correspondence with the plurality of second fastening members, the more the free ends of the adjustment belt 161 are folded back, the more the areas are connected to the body of the adjustment belt 161, and the less easily the free ends of the adjustment belt 161 are folded back, the more loose the adjustment belt 161 is.

In an embodiment, the adjusting assembly 160 further includes a first elastic member 163, one end of the first elastic member 163 is connected to the fixing member 150, the other end is connected to the body of the adjusting belt 161, and a plurality of second fastening members are disposed between the second connecting member 140 and the first elastic member 163.

Referring to fig. 2 and 3, the adjusting assembly 160 further includes a first elastic member 163, one end of the first elastic member 163 is connected to the fixing member 150, and the other end is connected to the body of the adjusting belt 161. The length of the first elastic member 163 changes with the angle between the first support rod 110 and the second support rod 120, and the first elastic member 163 is configured to match the angle between the first support rod 110 and the second support rod 120. Since the second fastening members are arranged at intervals on the body of the adjusting belt 161, when the solar bracket 100 is in the unfolded state, the length of the adjusting belt 161 between the second connecting member 140 and the second supporting rod 120 is a fixed number, and there may be a case that the length of the adjusting belt 161 between the second connecting member 140 and the second supporting rod 120 is greater than the distance from the second connecting member 140 to the free end of the second supporting rod 120, thereby affecting the stability of the structure of the solar bracket 100. At this time, the first elastic member 163 functions to compensate for the difference between the two. The first elastic member 163 may lift the body of the adjustment belt 161 toward the fixing member 150, and the first support bar 110, the second support bar 120, the first elastic member 163 and the adjustment belt 161 form a plurality of triangles together with each other, thereby greatly increasing the stability of the structure of the solar bracket 100. When the solar bracket 100 is in the storage state, the first elastic member 163 recovers the deformation, automatically folds the adjusting belt 161, and stores the adjusting belt in the plane of the first supporting rod 110, which is very convenient and fast. The plurality of second fastening members are disposed between the second connecting member 140 and the first elastic member 163, so that the first elastic member 163 can avoid interference to the fastening of the first fastening member 162 and the second fastening member.

In an embodiment, the second connecting piece 140 is provided with a clamping groove 142, and when the solar bracket 100 is in the storage state, the free end of the second support rod 120 is stored in the clamping groove 142.

Referring to fig. 1 and 4, the second connecting member 140 is provided with a clamping groove 142, and the clamping groove 142 is used for accommodating the second supporting rod 120. In an embodiment, the second connecting member 140 includes a body and a protrusion disposed on a side of the body facing the first connecting member 130. The clamping groove 142 is provided at the protruding portion and penetrates the protruding portion along the length direction of the first support bar 110. In another embodiment, the second connecting member 140 includes a body, and a clamping groove 142 is disposed on the body, and the clamping groove 142 extends toward the first connecting member 130 and penetrates through the body toward one side of the first connecting member 130. Further, two clamping grooves 142 and a communicating groove are formed in the body, and the communicating groove is formed between the two clamping grooves 142 and communicates the two clamping grooves 142. When the solar bracket 100 is in the storage state, the free end of the second support rod 120 is stored in the clamping groove 142, so that the second support rod 120 is stored in the plane where the first support rod 110 and the second connecting piece 140 are located.

In one embodiment, the second support rod 120 forms an angle with the first support rod 110 extending in a direction toward the second end 112 in the range of 30 ° -150 ° when the solar rack 100 is in the deployed state.

Referring to fig. 5, when the solar rack 100 is in the storage state, the free end of the second support rod 120 is stored in the second end 112. The second support rod 120 uses the fixing member 150 as a rotation center, and its free end can rotate from the second end 112 to the first end 111. The second support bar 120 forms an angle θ of 0 ° to 180 ° with the first support bar 110 extending in a direction toward the second end 112. When θ increases from 0 ° to 180 °, the inclination angle α of the first support bar 110 decreases with an increase in θ. When θ is less than 30 °, the second support bar 120 provides a small supporting force to the first support bar 110, and the solar rack 100 is unstable and easily shakes and rolls over. When θ is greater than 150 °, the inclination angle α of the first support bar 110 is too small, and the solar photovoltaic panel 200 is mounted with the solar bracket 100, which has a limited light received, thereby greatly reducing the power generation efficiency of the solar folding bag 10. When theta is 30-150 degrees, the solar bracket 100 has better support and stability, and the two side surfaces of the solar photovoltaic panel 200 can receive illumination, so that the power generation efficiency is improved.

In one embodiment, the first connecting member 130 can slide along the length direction of the first supporting rod 110; the solar bracket 100 further includes a second elastic member 170, wherein one end of the second elastic member 170 is connected to the first connecting member 130, and the other end is connected to the fixing member 150.

Referring to fig. 1 and 2, the first connecting member 130 can slide along the length direction of the first supporting rod 110, so as to facilitate the installation of the solar photovoltaic panel 200 on the solar bracket 100. When installed, the first connecting member 130 slides toward the first end 111, and the distance from the first connecting member 130 to the second connecting member 140 is greater than the distance between the opposite sides of the solar photovoltaic panel 200. After the solar photovoltaic panel 200 is mounted on the first support bar 110, the first connector 130 is slid toward the second end 112 into connection with the solar photovoltaic panel 200 to mount the solar photovoltaic panel 200 on the solar stand 100. The solar bracket 100 further includes a second elastic member 170, wherein one end of the second elastic member 170 is connected to the first connecting member 130, and the other end is connected to the fixing member 150. The second elastic member 170 functions to prevent the first link 130 from sliding out of the first support bar 110, and the length of the second elastic member 170 is equal to the distance from the first link 130 to the fixing member 150. In order to prevent the first link 130 from sliding out of the first support bar 110, the maximum length of the second elastic member 170 after being stretched should be smaller than the distance from the first end 111 to the fixing member 150.

In one embodiment, the first support bar 110 includes two long bars, the two long bars are disposed side by side with a space therebetween, and the connecting assembly and the fixing member 150 are disposed between and connect the two long bars.

Referring to fig. 1 and 2, the first support bar 110 includes two long bars, which are arranged side by side with a distance therebetween, and a support surface is formed between the two long bars. The solar photovoltaic panel 200 is arranged on the supporting surface, sunlight can irradiate the solar photovoltaic panel 200 from a gap between the two long rods, and the covering area of the solar bracket 100 on the solar photovoltaic panel 200 is greatly reduced, so that the power generation efficiency of the solar folding bag 10 is increased. When the solar bracket 100 is in the storage state, the second support bar 120 is stored on the support surface formed between the two long bars, so as to reduce the occupied area of the solar bracket 100. The connecting assembly and the fixing member 150 are provided between and connect the two long bars. Two long rods pass through edges of both sides of the connection assembly and the fixing member 150, respectively, to be connected with the connection assembly and the fixing member 150.

The utility model also provides a solar folding bag 10, the solar folding bag 10 comprises a solar photovoltaic panel 200 and a solar bracket 100, and the specific structure of the solar bracket 100 refers to the above embodiment, and since the solar folding bag 10 adopts all the technical schemes of all the embodiments, at least has all the beneficial effects brought by the technical schemes of the embodiments, and will not be described in detail herein.

The first supporting rod 110 is disposed on one side of the solar photovoltaic panel 200, the first connecting member 130 is connected to an edge of the top of the solar photovoltaic panel 200, and the second connecting member 140 is connected to an edge of the bottom of the solar photovoltaic panel 200.

Referring to fig. 6, the solar photovoltaic panel 200 is generally square, which may be rectangular or square. The solar photovoltaic panel 200 is used for receiving illumination to generate electricity, and both sides of the solar photovoltaic panel 200 of the solar folding bag 10 can generate electricity, and the solar bracket 100 is installed on one side of the solar photovoltaic panel 200. The first support bar 110 is disposed on one side of the solar photovoltaic panel 200, the first connection member 130 is connected to an edge of the top of the solar photovoltaic panel 200, the second connection member 140 is connected to an edge of the bottom of the solar photovoltaic panel 200, and the solar support 100 and the solar photovoltaic panel 200 are connected together through the first connection member 130 and the second connection member 140. The first and second connection members 130 and 140 are detachably connected to the solar photovoltaic panel 200, and may be adhered, screwed, clamped, etc., so that the solar support 100 and the solar photovoltaic panel 200 can be detached for maintenance and replacement. Since the solar rack 100 is less light-shielding, the area of the solar photovoltaic panel 200 where the solar rack 100 is installed to receive light increases, greatly increasing the power generation efficiency of the solar folding bag 10.

The foregoing description is only of the optional embodiments of the present utility model, and is not intended to limit the scope of the utility model, and all equivalent structural modifications made by the present description and accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the present utility model.

Claims (10)

1. A solar rack, comprising:

a first support bar having opposite first and second ends;

the connecting assembly comprises a first connecting piece arranged at the first end and a second connecting piece arranged at the second end, and is used for connecting a solar photovoltaic panel;

the fixing piece is arranged between the first connecting piece and the second connecting piece and is connected with the first supporting rod;

the second support rod is rotatably connected with the fixing piece, the solar support is provided with a storage state in which the second support rod is stored in the plane where the first support rod is located, and the second support rod rotates to an unfolding state in which an included angle is formed between the second support rod and the first support rod.

2. The solar rack of claim 1, further comprising an adjustment assembly connecting the second connector and the second support bar, the adjustment assembly configured to adjust an included angle between the first support bar and the second support bar when the solar rack is in the deployed state.

3. The solar rack of claim 2, wherein the adjustment assembly comprises an adjustment strap and a fastener, the fastener being provided on the adjustment strap, the second connector being provided with a through opening through which the adjustment strap passes; the adjusting belt is provided with a free end, a fixed end connected with the free end of the second supporting rod and a body positioned between the free end and the fixed end, the free end of the adjusting belt penetrates through the through hole, and after turning back, the adjusting belt is connected with the body of the adjusting belt through the buckling piece.

4. The solar rack of claim 3, wherein the fastening member comprises a first fastening member and a plurality of second fastening members, the first fastening member is disposed at a free end of the adjusting strap, the plurality of second fastening members is disposed on the body of the adjusting strap and is arranged at intervals along a length direction of the adjusting strap, and the first fastening member is fastened to one of the second fastening members.

5. The solar rack of claim 4, wherein the adjustment assembly further comprises a first elastic member having one end connected to the fixing member and the other end connected to the body of the adjustment strap, and the plurality of second fastening members are disposed between the second connecting member and the first elastic member.

6. A solar rack as claimed in claim 3, wherein the second connector is provided with a slot in which the free end of the second support bar is received when the solar rack is in the stowed condition.

7. The solar rack of claim 1, wherein the second support bar forms an angle with the first support bar extending in a direction toward the second end in the range of 30 ° -150 ° when the solar rack is in the deployed state.

8. The solar rack of claim 1, wherein the first connector is slidable along a length of the first support rod; the solar bracket further comprises a second elastic piece, one end of the second elastic piece is connected with the first connecting piece, and the other end of the second elastic piece is connected with the fixing piece.

9. The solar rack of claim 1, wherein the first support bar comprises two long bars, the two long bars are arranged side by side with a distance therebetween, and the connecting assembly and the fixing member are arranged between the two long bars and connect the two long bars.

10. A solar folding bag, comprising a solar photovoltaic panel and the solar support according to any one of claims 1-9, wherein the first support bar is arranged on one side of the solar photovoltaic panel, the first connecting piece is connected to the edge of the top of the solar photovoltaic panel, and the second connecting piece is connected to the edge of the bottom of the solar photovoltaic panel.