CN204947971U - modular photovoltaic bracket - Google Patents

Abstract

The utility model provides a kind of modular photovoltaic bracket, for supporting one group of solar panels, described modular photovoltaic bracket comprises rear support stand, left diagonal brace bar, right diagonal brace bar, left hook, right hook and base, wherein said rear support stand is by upper, under, left, the rectangular frame structure that right support bar surrounds, a described left side, right hook is separately fixed at a left side for these group solar panels, right both sides, one end of described left diagonal brace bar is hinged on the left side of these group solar panels, the other end of described left diagonal brace bar is fixed on described left support bar, one end of described right diagonal brace bar is hinged on the right side of these group solar panels, the other end of described right diagonal brace bar is fixed on described right support bar, described base is arranged on described lower support bar, a kind of modular photovoltaic bracket that the utility model provides makes the installation of solar panels can modularization, and the construction period is short, it is simple and easy to install, convenient disassembly is flexible.

Description

Modular photovoltaic bracket

Technical field

The utility model belongs to photovoltaic module mounting technique field, relates to a kind of modular photovoltaic bracket particularly.

Background technology

In prior art, building of photovoltaic bracket is specific requirement based on a certain engineering, and adopt based on pre-cast concrete pier, C-type steel and articulated elements are bolted and form, and its drawback mainly contains following 4 points:

A) because building of photovoltaic bracket is based on a certain engineering, the length of C-type steel is long, not easily transports, and C-type steel itself is than great simultaneously, material weight;

B) construction period is long: pre-cast concrete pier need wait for that it hardens completely, and the general cycle is a week;

C) installation steps are loaded down with trivial details: photovoltaic bracket is intersecting parallels, and by bolt, briquetting and articulated elements by fixing for assembly, C-type steel and clump basis, more than workmen at least 2 people, fastening bolt is very many, and its model is not of uniform size, installs and bothers very much;

D) very flexible: when mounted photovoltaic bracket is as force majeure natural calamities such as typhoons, dismantles and again installs all very difficult.

Utility model content

The utility model provides a kind of modular photovoltaic bracket, comprises rear support stand, left diagonal brace bar, right diagonal brace bar, left hook, right hook and base, by rear support stand and left and right diagonal brace bar with support solar plate, can realize Fast Installation, dismounting.

Technical scheme:

A kind of modular photovoltaic bracket, for supporting one group of solar panels, it is characterized in that, described modular photovoltaic bracket comprises rear support stand, left diagonal brace bar, right diagonal brace bar, left hook, right hook and base, wherein said rear support stand is by upper, under, left, the rectangular frame structure that right support bar surrounds, a described left side, right hook is separately fixed at a left side for these group solar panels, right both sides, and a described left side, the opening of right hook is greater than the cross section of described upper support bar, described upper support bar enters a described left side by described opening, in the groove of each self-forming of right hook, one end of described left diagonal brace bar is hinged on the left side of these group solar panels, the other end of described left diagonal brace bar is fixed on described left support bar, one end of described right diagonal brace bar is hinged on the right side of these group solar panels, the other end of described right diagonal brace bar is fixed on described right support bar, described base is arranged on described lower support bar.

Described rear support stand is hollow aluminium alloy pipe, and described left and right diagonal brace bar is hollow aluminium alloy elliptical tube.

Described left and right hook comprises hook portion, described hook portion comprises described opening and described groove, described opening is connected with described groove, the groove top of described groove comprises the recess matched with the shape of cross section of described upper support bar, described upper support bar and described left and right hook are when cooperation position, and described upper support bar props up described recess.

Described left and right hook also comprises the draw-in groove portion into a single integrated structure with described hook portion, the structure of C type that to be the cross section be made up of the first horizontal stripe, the second taeniae and the 3rd horizontal stripe be in described draw-in groove portion, described first horizontal stripe and the 3rd horizontal stripe parallel to each other and all perpendicular to the second taeniae, the width of described second taeniae equals the thickness of described solar panels, and the opening of the C type structure in described draw-in groove portion is from the side clamping solar panels of solar panels.

3rd horizontal stripe in described draw-in groove portion offers through hole, the relevant position of described solar panels also offers screwed hole, draw-in groove portion is fixed on described solar panels through described through hole and described screwed hole by screw or bolt.

Also comprise a left side, right diagonal brace connector, a described left side, right diagonal brace connector is separately fixed at a left side for these group solar panels, right dual-side and lay respectively at a described left side, the below of right hook, one end of described left diagonal brace bar is hinged on described left diagonal brace connector, the other end of described left diagonal brace bar offers left slotted eye, correspondingly, described left support bar is fixed with left bolt or left rivet, described left slotted eye hangs on described left bolt or left rivet, one end of described right diagonal brace bar is hinged on described right diagonal brace connector, the other end of described right diagonal brace bar offers right slotted eye, correspondingly, described right support bar is fixed with right bolt or right rivet, described right slotted eye hangs on described right bolt or right rivet.

A described left side, right diagonal brace connector is respectively by the 4th horizontal stripe, the cross section that 5th taeniae and the 6th horizontal stripe are formed is the structure of F type, described 4th horizontal stripe and the 6th horizontal stripe parallel to each other and all perpendicular to the 5th taeniae, the opening of the C type structure on the top in described F type structure is from the side clamping solar panels of solar panels, and the 6th horizontal stripe offers through hole, the relevant position of described solar panels also offers screwed hole, screw or bolt through described through hole and described screwed hole by a left side, right diagonal brace connector is fixed on described solar panels, a described left side, right diagonal brace is article hinged with the part of the C type that the protrudes from structure of described 5th taeniae respectively.

Described base is a pair or two pairs of press strips, described press strip entirety is strip, described press strip is placed on it along the direction perpendicular to lower support bar, the middle part of this press strip is in the arcuation corresponding to described lower support sliver transvers section shape, and the two ends of described press strip have the blend stop upwards vertical with strip.

Described press strip offers through hole.

Described one group of solar panels comprise two and plural solar panels, be connected with base assemblies draw-in groove by top assembly draw-in groove between two adjacent solar panels, described top assembly draw-in groove and base assemblies draw-in groove are respectively by the 7th horizontal stripe, the cross section that 8th taeniae and the 9th horizontal stripe are formed is the structure of C type, described 7th horizontal stripe clamps the front of described solar panels, described 9th horizontal stripe clamps the back side of described solar panels, the part of close described 8th taeniae of described 7th horizontal stripe and the 9th horizontal stripe is parallel to each other and all perpendicular to the 8th taeniae, the part away from described 8th taeniae of described 9th horizontal stripe is slightly close to described 7th horizontal stripe, the width of described 8th taeniae equals the thickness of described solar panels, the opening of C type structure is from the adjacent solar panels of the side clamping two simultaneously of two solar panels.

The inner surface of described top assembly draw-in groove and/or base assemblies draw-in groove is provided with anti-slop serrations.

Described base assemblies draw-in groove also includes the tenth horizontal stripe, described tenth horizontal stripe is fixed on the junction of the 8th taeniae and described 9th horizontal stripe, described tenth horizontal stripe offers through hole, the interior angle between described tenth horizontal stripe and the 8th taeniae and the interior angle supplementary angle each other between solar panels and ground.

Also comprise inverter hook, the cross section of described inverter hook is inverted U-shaped, inverted U-shaped recess hangs on upper support bar, inverted U-shaped two relative planes offers corresponding hole, and described inverter is fixed on described inverter hook by bolt, described hole.

Technique effect:

The utility model provides a kind of modular photovoltaic bracket, make the installation of solar panels can modularization, because this support does not rely on detailed programs, do not need to design support based on project, scene is built, only need to calculate the quantity of support, therefore the construction period short, install simple and easy, convenient disassembly is flexible.Modular photovoltaic support structure is simple, and about 1-2 minute of field erected used time is very convenient.

Photovoltaic bracket comprises rear support stand, left diagonal brace bar, right diagonal brace bar, left hook, right hook and base, rear support stand is rectangular frame structure, by left and right hook support solar plate, left and right diagonal brace bar is used for the angle of relative position between fixed solar plate and rear support stand fixed solar plate simultaneously.

Rear support stand is hollow aluminium alloy pipe, and left and right diagonal brace bar is hollow aluminium alloy elliptical tube, to alleviate photovoltaic bracket overall weight.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of a kind of embodiment of the modular photovoltaic bracket being supported with one group of solar panels;

Fig. 2 a is the structural representation of the left hook in Fig. 1; Fig. 2 b is the structural representation of the right hook in Fig. 1;

Fig. 3 is the structural representation of the left diagonal brace connector (right diagonal brace connector) in Fig. 1;

Fig. 4 is the structural representation of the left diagonal brace bar (right diagonal brace bar) in Fig. 1;

Fig. 5 is the structural representation of the press strip in Fig. 1;

Fig. 6 is the structural representation of the top assembly draw-in groove in Fig. 1;

Fig. 7 is the structural representation of the base assemblies draw-in groove in Fig. 1.

Reference numeral lists as follows:

1-mono-group of solar panels; The left hook of 2-(right hook), 21-opening, 22-groove, 23-recess, 24-first horizontal stripe, 25-second taeniae, 26-the 3rd horizontal stripe; 3-left diagonal brace connector (right diagonal brace connector), 31-the 4th horizontal stripe, 32-the 5th taeniae, 33-the 6th horizontal stripe; 4-left diagonal brace bar (right diagonal brace bar), the left slotted eye of 41-(right slotted eye), 42-opening, 43-groove; 5-press strip, 51-arcuation, 52-blend stop; 6-top assembly draw-in groove, 61-the 7th horizontal stripe, 62-the 8th taeniae, 63-the 9th horizontal stripe; 7-base assemblies draw-in groove, 71-the tenth horizontal stripe; 8-inverter is linked up with; 9-rear support stand.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Fig. 1 is the schematic diagram of a kind of embodiment of the modular photovoltaic bracket being supported with one group of solar panels 1, and wherein this Modular photovoltaic support includes rear support stand 9, left diagonal brace bar 4, right diagonal brace bar 4, left hook 2, right hook 2 and base 5, rear support stand 9 is wherein by upper, under, left, the rectangular frame structure that right support bar surrounds, left, right hook 2 is separately fixed at a left side for these group solar panels 1, right both sides, and a described left side, the opening 21 of right hook 2 is greater than the cross section of described upper support bar, and described upper support bar enters a described left side by described opening 21, in the groove 22 of each self-forming of right hook (see Fig. 2 a and 2b), one end of described left diagonal brace bar 4 is hinged on the left diagonal brace connector 3 in the left side of these group solar panels 1, the other end of described left diagonal brace bar 4 is fixed on described left support bar, one end of described right diagonal brace bar 4 is hinged on the right diagonal brace connector 3 on the right side of these group solar panels 1, the other end of described right diagonal brace bar 4 is fixed on described right support bar, and described base 5 is arranged on described lower support bar.

Certainly, left and right diagonal brace connector 3 is not necessary parts, left and right diagonal brace bar directly can be hinged to the left and right side of solar panels, now, compared to the situation arranging left and right diagonal brace connector 3, when being directly hinged to the left and right side of solar panels, easily damage is caused to the left and right side of solar panels.

Preferably, above-mentioned rear support stand 9 is hollow aluminium alloy pipes, and described left and right diagonal brace bar 4 is hollow aluminium alloy elliptical tube (see Fig. 4), can alleviate the overall weight of photovoltaic bracket like this.

Fig. 2 a is the structural representation of the left hook in Fig. 1, and Fig. 2 b is the structural representation of the right hook in Fig. 1, and left hook 2 wherein and right hook 2 are mirror-image structure, are described here for left hook 2.Left hook 2 comprises hook portion and the draw-in groove portion of integrative-structure, and wherein hook portion is used for coordinating with upper support bar, and draw-in groove portion is used for being connected with solar panels, and rear support stand 9 supports this group solar panels 1 by left and right hook 2.Hook portion comprises opening 21 and groove 22, opening 21 is connected with groove 22, the groove top of groove 22 comprises the recess 23 matched with the shape of cross section of upper support bar, upper support bar and left hook 2 are when cooperation position, upper support bar props up recess 23, and and force direction between recess 23 perpendicular to the direction of opening 21.The structure of C type that to be the cross section be made up of the first horizontal stripe 24, second taeniae 25 and the 3rd horizontal stripe 26 be in draw-in groove portion, first horizontal stripe 24 and the 3rd horizontal stripe 26 parallel to each other and all perpendicular to the second taeniae 25, the width of the second taeniae 25 equals the thickness of solar panels, the opening of the C type structure in draw-in groove portion is from the side clamping solar panels of solar panels, wherein the first horizontal stripe 24 clamps the upper surface (front) of solar panels, and the 3rd horizontal stripe 26 clamps the lower surface (back side) of solar panels.Further preferably, the 3rd horizontal stripe 26 in draw-in groove portion offers through hole, the relevant position of the lower surface of solar panels also offers screwed hole, draw-in groove portion is fixed on described solar panels through through hole and screwed hole by screw or bolt further.The width of the first horizontal stripe 24 is wherein less than the width of the 3rd horizontal stripe 26, and preferably, the width of the first horizontal stripe 24 equals the width of the frame of solar panels, avoids the first horizontal stripe 24 to block effective plate face of solar panels.

Fig. 3 is the structural representation of the left diagonal brace connector (right diagonal brace connector) 3 in Fig. 1.As mentioned above, left and right diagonal brace connector is set for a kind of preferred mode.Left, the structure of right diagonal brace connector 3 is identical, left, right diagonal brace connector 3 is separately fixed at a left side for these group solar panels 1, right dual-side and lay respectively at a described left side, the below of right hook 2, one end of left diagonal brace bar 4 is hinged on left diagonal brace connector 3, the other end of left diagonal brace bar 4 offers left slotted eye 41 (see Fig. 4), correspondingly, left support bar is fixed with left bolt or left rivet, left slotted eye 41 hangs on left bolt or left rivet, one end of right diagonal brace bar 4 is hinged on right diagonal brace connector 3, the other end of right diagonal brace bar 4 offers right slotted eye 41, correspondingly, right support bar is fixed with right bolt or right rivet, right slotted eye hangs on described right bolt or right rivet.Like this, stabilize by arranging left and right diagonal brace bar the angle that rear support stand 9 secures these group solar panels simultaneously.Left, right diagonal brace connector 3 is respectively by the 4th horizontal stripe 31, the cross section that 5th taeniae 32 and the 6th horizontal stripe 33 are formed is the structure of F type, 4th horizontal stripe 31 and the 6th horizontal stripe 33 parallel to each other and all perpendicular to the 5th taeniae 32, the opening of the C type structure on the top in described F type structure is from the side clamping solar panels of solar panels, wherein the 4th horizontal stripe 31 clamps the upper surface (front) of solar panels, 6th horizontal stripe 33 clamps the lower surface (back side) of solar panels, the distance between the 4th horizontal stripe 31 and the 6th horizontal stripe 33 of the 5th taeniae 32 equals the thickness of solar panels, wherein the width of the 4th horizontal stripe 31 is less than the width of the 6th horizontal stripe 33, preferably, the width of the 4th horizontal stripe 31 equals the width of the frame of solar panels, the 4th horizontal stripe 31 is avoided to block effective plate face of solar panels.And the 6th horizontal stripe 33 offers through hole, the relevant position of solar panels also offers screwed hole, left and right diagonal brace connector 3 is fixed on solar panels through through hole and screwed hole by screw or bolt, and left and right diagonal brace articles 4 is hinged with the part (part away from the 4th horizontal stripe 31) protruding from C type structure of the 5th taeniae 32 respectively.

Fig. 4 is the structural representation of the left diagonal brace bar (right diagonal brace bar) in Fig. 1, the structure of left and right diagonal brace bar 4 is identical, here be described for left diagonal brace bar 4, one end of the close solar panels of left diagonal brace bar 4 offers through hole, for being hinged to left diagonal brace connector 3 by articulated elements or being directly hinged to the left side of solar panels; One end away from solar panels (namely near one end of rear support stand) of left diagonal brace bar 4 offers left slotted eye 41, left slotted eye 41 comprises opening 42 and groove 43, and left bolt fixing on left support bar or left rivet are entered in groove 43 by opening 42 and left slotted eye 41 is hung on left bolt or left rivet.

Fig. 5 is the structural representation of press strip 5 in Fig. 1.In the present embodiment, base is two pairs of press strips, certainly a pair press strip or three pairs of press strips etc. can also be adopted, press strip 5 entirety is strip, the middle part of this press strip 5 is in the arcuation 51 corresponding to lower support sliver transvers section shape, the two ends of press strip have the blend stop 52 upwards vertical with strip, and press strip 5 also offers through hole.When photovoltaic bracket present position is applicable to arranging expansion bolt or cement nail, expansion bolt or cement nail pass through hole with the position of fixing press strip 5, and then fixing lower support bar; When position described in photovoltaic bracket is not suitable for arranging expansion bolt or cement nail, such as on roof, on press strip 5, put brick or other weights in the scope of blend stop 52 with fixing press strip 5 and then fixing lower support bar.

Fig. 6 and Fig. 7 is respectively the structural representation of top assembly draw-in groove 6 and base assemblies draw-in groove 7.When one group of solar panels comprises two or more than two solar panels, the present embodiment comprises two pieces of solar panels, and adjacent solar panels need to be grouped together by two pieces of solar panels by top assembly draw-in groove 6 and base assemblies draw-in groove 7.Top assembly draw-in groove 6 is wherein by the 7th horizontal stripe 61, the cross section that 8th taeniae 62 and the 9th horizontal stripe 63 are formed is the structure of C type, the part near the 8th taeniae 62 of the 7th horizontal stripe 61 and the 9th horizontal stripe 63 is parallel to each other and all perpendicular to the 8th taeniae 62, the part away from the 8th taeniae 62 of described 9th horizontal stripe 63 is slightly close to the 7th horizontal stripe, the width of described 8th taeniae 62 equals the thickness of described solar panels, the opening of C type structure is from the adjacent solar panels of the side clamping two simultaneously of two solar panels, wherein the 7th horizontal stripe 61 clamps the upper surface (front) of solar panels, 9th horizontal stripe 63 clamps the lower surface (back side) of solar panels, wherein the width of the 7th horizontal stripe 61 is less than the width of the 9th horizontal stripe 63, preferably, the width of the 7th horizontal stripe 61 equals the width of the frame of solar panels, the 7th horizontal stripe 61 is avoided to block effective plate face of solar panels.

Further preferably, the inner surface of top assembly draw-in groove 6 is provided with anti-slop serrations, strengthen the clamping force of top assembly draw-in groove 6, and increasing friction force prevents two pieces of solar panels away from each other.

Base assemblies draw-in groove 7 is identical with the structure of top assembly draw-in groove 6.Preferably, base assemblies draw-in groove 7 also includes the tenth horizontal stripe 71, tenth horizontal stripe 71 is fixed on the junction of the 8th taeniae 62 and the 9th horizontal stripe 63, interior angle between described tenth horizontal stripe 71 and the 8th taeniae 62 and the interior angle supplementary angle each other between solar panels and ground, make when photovoltaic bracket is in installation site, tenth horizontal stripe 71 is parallel to ground, tenth horizontal stripe 71 offers through hole, when residing ground is applicable to arranging expansion bolt or cement nail, expansion bolt and cement nail are set by this through hole, are conducive to further fixed solar plate.

As shown in Figure 1, also comprise inverter hook 8, for installing inverter or miscellaneous part, the cross section of inverter hook 8 is inverted U-shaped, inverted U-shaped recess hangs on upper support bar, inverted U-shaped two relative planes offer corresponding hole, inverter is fixed on inverter hook 8 by bolt, corresponding hole.

The installation of the photovoltaic bracket that the utility model provides is very convenient, installation (by top assembly draw-in groove 6 and base assemblies draw-in groove 7) between solar panels wherein, left, installation between right hook 2 and solar panels, left, installation between right diagonal brace connector 3 and solar panels, and it is left, right diagonal brace bar 4 is with left, hinged between right diagonal brace connector 3 all can carry out before dispatching from the factory, rear support stand 9 is hung over a left side by only comprising that on-the-spot needs are installed, on right hook 2, by a left side, a left side for right diagonal brace bar 4, right slotted eye 41 is fixed on a left side, on right support bar and place and fix press strip 5, whole installation process is without the need to threaded connector, install rapidly, 1-2 minute, when run into typhoon etc. can not against natural disaster time, dismounting is same convenient rapidly.

Claims (14)

1. a modular photovoltaic bracket, for supporting one group of solar panels, it is characterized in that, described modular photovoltaic bracket comprises rear support stand, left diagonal brace bar, right diagonal brace bar, left hook, right hook and base, wherein said rear support stand is by upper, under, left, the rectangular frame structure that right support bar surrounds, a described left side, right hook is separately fixed at a left side for these group solar panels, right both sides, and a described left side, the opening of right hook is greater than the cross section of described upper support bar, described upper support bar enters a described left side by described opening, in the groove of each self-forming of right hook, one end of described left diagonal brace bar is hinged on the left side of these group solar panels, the other end of described left diagonal brace bar is fixed on described left support bar, one end of described right diagonal brace bar is hinged on the right side of these group solar panels, the other end of described right diagonal brace bar is fixed on described right support bar, described base is arranged on described lower support bar.

2. modular photovoltaic bracket according to claim 1, is characterized in that, described rear support stand is hollow aluminium alloy pipe, and described left and right diagonal brace bar is hollow aluminium alloy elliptical tube.

3. modular photovoltaic bracket according to claim 1 and 2, it is characterized in that, described left and right hook comprises hook portion, described hook portion comprises described opening and described groove, described opening is connected with described groove, the groove top of described groove comprises the recess matched with the shape of cross section of described upper support bar, and described upper support bar and described left and right hook are when cooperation position, and described upper support bar props up described recess.

4. modular photovoltaic bracket according to claim 3, it is characterized in that, described left and right hook also comprises the draw-in groove portion into a single integrated structure with described hook portion, the structure of C type that to be the cross section be made up of the first horizontal stripe, the second taeniae and the 3rd horizontal stripe be in described draw-in groove portion, described first horizontal stripe and the 3rd horizontal stripe parallel to each other and all perpendicular to the second taeniae, the width of described second taeniae equals the thickness of described solar panels, and the opening of the C type structure in described draw-in groove portion is from the side clamping solar panels of solar panels.

5. modular photovoltaic bracket according to claim 4, it is characterized in that, 3rd horizontal stripe in described draw-in groove portion offers through hole, the relevant position of described solar panels also offers screwed hole, and draw-in groove portion is fixed on described solar panels through described through hole and described screwed hole by screw or bolt.

6. modular photovoltaic bracket according to claim 1 and 2, it is characterized in that, also comprise a left side, right diagonal brace connector, a described left side, right diagonal brace connector is separately fixed at a left side for these group solar panels, right dual-side and lay respectively at a described left side, the below of right hook, one end of described left diagonal brace bar is hinged on described left diagonal brace connector, the other end of described left diagonal brace bar offers left slotted eye, correspondingly, described left support bar is fixed with left bolt or left rivet, described left slotted eye hangs on described left bolt or left rivet, one end of described right diagonal brace bar is hinged on described right diagonal brace connector, the other end of described right diagonal brace bar offers right slotted eye, correspondingly, described right support bar is fixed with right bolt or right rivet, described right slotted eye hangs on described right bolt or right rivet.

7. modular photovoltaic bracket according to claim 6, it is characterized in that, a described left side, right diagonal brace connector is respectively by the 4th horizontal stripe, the cross section that 5th taeniae and the 6th horizontal stripe are formed is the structure of F type, described 4th horizontal stripe and the 6th horizontal stripe parallel to each other and all perpendicular to the 5th taeniae, the opening of the C type structure on the top in described F type structure is from the side clamping solar panels of solar panels, and the 6th horizontal stripe offers through hole, the relevant position of described solar panels also offers screwed hole, screw or bolt through described through hole and described screwed hole by a left side, right diagonal brace connector is fixed on described solar panels, a described left side, right diagonal brace is article hinged with the part of the C type that the protrudes from structure of described 5th taeniae respectively.

8. modular photovoltaic bracket according to claim 1 and 2, it is characterized in that, described base is a pair or two pairs of press strips, described press strip entirety is strip, described press strip is placed on it along the direction perpendicular to lower support bar, the middle part of this press strip is in the arcuation corresponding to described lower support sliver transvers section shape, and the two ends of described press strip have the blend stop upwards vertical with strip.

9. modular photovoltaic bracket according to claim 8, is characterized in that, described press strip offers through hole.

10. modular photovoltaic bracket according to claim 1 and 2, it is characterized in that, described one group of solar panels comprise two and plural solar panels, be connected with base assemblies draw-in groove by top assembly draw-in groove between two adjacent solar panels, described top assembly draw-in groove and base assemblies draw-in groove are respectively by the 7th horizontal stripe, the cross section that 8th taeniae and the 9th horizontal stripe are formed is the structure of C type, described 7th horizontal stripe clamps the front of described solar panels, described 9th horizontal stripe clamps the back side of described solar panels, the part of close described 8th taeniae of described 7th horizontal stripe and the 9th horizontal stripe is parallel to each other and all perpendicular to the 8th taeniae, the part away from described 8th taeniae of described 9th horizontal stripe is slightly close to described 7th horizontal stripe, the width of described 8th taeniae equals the thickness of described solar panels, the opening of C type structure is from the adjacent solar panels of the side clamping two simultaneously of two solar panels.

11. modular photovoltaic brackets according to claim 10, is characterized in that, the inner surface of described top assembly draw-in groove and/or base assemblies draw-in groove is provided with anti-slop serrations.

12. modular photovoltaic brackets according to claim 10, it is characterized in that, described base assemblies draw-in groove also includes the tenth horizontal stripe, described tenth horizontal stripe is fixed on the junction of the 8th taeniae and described 9th horizontal stripe, described tenth horizontal stripe offers through hole, the interior angle between described tenth horizontal stripe and the 8th taeniae and the interior angle supplementary angle each other between solar panels and ground.

13. modular photovoltaic brackets according to claim 11, it is characterized in that, described base assemblies draw-in groove also includes the tenth horizontal stripe, described tenth horizontal stripe is fixed on the junction of the 8th taeniae and described 9th horizontal stripe, described tenth horizontal stripe offers through hole, the interior angle between described tenth horizontal stripe and the 8th taeniae and the interior angle supplementary angle each other between solar panels and ground.

14. modular photovoltaic brackets according to claim 1 and 2, it is characterized in that, also comprise inverter hook, the cross section of described inverter hook is inverted U-shaped, inverted U-shaped recess hangs on upper support bar, inverted U-shaped two relative planes offer corresponding hole, described inverter is fixed on described inverter hook by bolt, described hole.