CN218678899U - Support for fixing solar cell panel by using hinge structure - Google Patents

Abstract

The utility model discloses an utilize hinge structure to fix solar cell panel's support, this support includes: the support assembly, the baffle plate and the hinge structure; the support assembly includes: the first supporting rod, the second supporting rod and the third supporting rod are arranged on the supporting frame; the first end of the baffle is fixedly connected below the first end of the first supporting rod; the second end of the baffle is fixedly connected below the first end of the second supporting rod; the first side of the third support rod is connected with the first support rod; the second side of the third supporting rod is connected with the second supporting rod; a solar panel is placed above the supporting component; the hinge structure is fixedly connected with the support assembly, and the hinge structure is connected with the solar panel so as to press and hold the solar panel on the support assembly. Adopt the utility model discloses, can be with the solar cell panel centre gripping on above-mentioned frame, and it is also simple to take out the operation.

Description

Support for fixing solar cell panel by using hinge structure

Technical Field

The utility model relates to a solar rack technical field especially relates to an utilize hinge structure to fix solar cell panel's support.

Background

Solar energy has become an important component of clean energy used by human beings, and is continuously developed, and the solar energy is generally used for generating electricity or providing energy for a water heater in modern times. The solar energy is utilized by two modes, namely photo-thermal conversion and photoelectric conversion, and in any conversion mode, the solar cell panel is required to convert the light energy.

However, in the prior art, the solar cell panel is usually placed at any corner of a house without being carried outside for outdoor use, which is not favorable for protecting the solar cell panel.

Disclosure of Invention

Based on the problem that exists above and prior art's defect, the utility model provides an utilize hinge structure to fix solar cell panel's support when solar cell panel does not carry outdoor use of going out, can firmly the centre gripping with solar cell panel on above-mentioned frame, take out this solar cell panel in addition from above-mentioned frame when going out outdoors, take out the operation also simple.

In a first aspect, the present invention provides a support assembly, a baffle, and a hinge structure;

wherein, the supporting component includes: the first supporting rod, the second supporting rod and the third supporting rod;

the first end of the baffle is fixedly connected below the first end of the first supporting rod; the second end of the baffle is fixedly connected below the first end of the second supporting rod; the first side of the third supporting rod is connected with the first supporting rod; the second side of the third supporting rod is connected with the second supporting rod;

a solar panel is placed above the supporting component; the hinge structure is fixedly connected with the support assembly, and the hinge structure is connected with the solar panel so as to press and hold the solar panel on the support assembly.

The utility model provides a pair of utilize hinge structure to fix solar cell panel's support when solar cell panel does not carry the outdoor use of going out, can firmly the centre gripping with solar cell panel on above-mentioned frame, take out this solar cell panel from above-mentioned frame in addition and go out when outdoor, take out the operation and also simple.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

Fig. 1 is a schematic structural view of a bracket for fixing a solar cell panel by using a hinge structure according to the present invention;

fig. 2 is an exploded view of a bracket for fixing a solar cell panel by using a hinge structure according to the present invention;

fig. 3 is an exploded view of another frame for embedding a solar cell panel based on a sliding rail structure according to the present invention;

fig. 4 is a schematic structural view of another bracket for fixing a solar cell panel by using a hinge structure according to the present invention;

in the figure: 10-a support assembly; 20-a baffle plate; 30-a solar panel; 101-a first support bar; 102-a second support bar; 103-a third support bar; 201-a first end of a baffle; 202-a second end of the baffle; 101100-a first end of a first support bar; 102100-first end of second support bar; 1036-a first side of a third support bar; 1037-a second side of the third support bar; 10111-a first fixation element; 10121-a first holding member; 10131-screw; 10132-screw; 10141-screw; 10142-screw; 10151-fried dumpling; 10152-metal dome tablets; 10153-fried dumpling; 10154-metal dome tablets; 10171-nut; 10172-nut; hole-10181; hole-10182; 10112-a second fixation element; 10122-a second holding member; 10133-screw; 10134-screw; 10143-screw; 10144-screw; 10155-fried dumpling; 10156-fried dumpling; 10157-fried dumpling; 10158-fried dumpling; 10173-nut; 10174-nut; 10183-holes; 10184-holes;

10113-third fixing element, 10123-third pressing element, 10135-screw rod, 10136-screw rod, 10145-screw rod, 10146-screw rod, 10159-metal dome sheet, 10160-metal dome sheet, 10161-metal dome sheet, 10162-metal dome sheet, 10175-nut, 10176-nut, 10185-hole and 10186-hole; 10211-fourth fixation assembly, 10221-fourth pressure holding element, 10231-screw, 10232-screw, 10241-screw, 10242-screw, 10251-snap, 10252-snap, 10253-snap, 10254-snap, 10271-nut, 10272-nut, 10281-eyelet, 10282-eyelet; 10212-fifth fixing component, 10222-fifth pressure holding element, 10233-screw, 10234-screw, 10243-screw, 10244-screw, 10255-snap, 10256-snap, 10257-snap, 10258-snap, 10273-nut, 10274-nut, 10283-first hole, 10284-second hole; 10213-sixth fixing component, 10223-sixth holding element, 10235-screw, 10236-screw, 10245-screw, 10246-screw, 10259-snap, 10260-snap, 10261-snap, 10262-snap, 10275-nut, 10275-nut, 10285-hole, 10286-hole; 101301-holes; 101302-holes; 101303-holes; 101304-holes; 101305-holes; 101306-holes; 102301-holes; 102302-holes; 102303-holes; 102304-holes; 102305-holes; 102306-holes; 10191-holes; 10192-holes; 10193-holes; 10194-holes; 10195-holes; 10196-holes; 10197-holes; 10198-holes; 10199-holes; 10291-hole; 10292-holes; 10293-holes; 10294-holes; 10295-holes; 10296-holes; 10297-holes; 10298-holes; 10299-holes; 1031-screw; 1032-a nut; 2015-screw; 2016-screw rod; 2017-nut; 2018-nut.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the drawings in the present application, and it should be understood that the described embodiments are some, not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

Referring to fig. 1, the present invention provides a schematic structural diagram of a bracket for fixing a solar cell panel by using a hinge structure; FIG. 2 illustrates an exploded view of a bracket for securing a solar panel using a hinge structure; FIG. 3 illustrates an exploded view of another bracket for securing a solar panel using a hinge structure; FIG. 4 illustrates a block diagram of another bracket for securing a solar panel using a hinge structure;

the above-mentioned bracket for fixing the solar cell panel by using the hinge structure is specifically analyzed and explained with reference to fig. 1 to 4,

specifically, the above-mentioned support includes: a support assembly 10, a baffle 20, and a hinge structure; wherein the support assembly 10 comprises: a first support bar 101, a second support bar 102, a third support bar 103;

wherein the first end 201 of the baffle 20 is fixedly connected below the first end 101100 of the first support bar 101; the second end 202 of the baffle 20 is fixedly connected below the first end 102100 of the second support rod 102; the first side 1036 of the third support bar 103 is connected to the first support bar 101; the second side 1037 of the third support bar 103 is connected with the second support bar 102;

a solar panel 30 is arranged above the supporting component 10; the hinge structure is fixedly connected with the support component 10, and the hinge structure is connected with the solar cell panel 30 so as to press and hold the solar cell panel 30 on the support component 10.

Specifically, the hinge structure includes: the hinge assembly comprises a first hinge assembly, a second hinge assembly, a third hinge assembly, a fourth hinge assembly, a fifth hinge assembly and a sixth hinge assembly;

the first hinge assembly is fixedly connected to the support assembly 10 through a first fixing element, and is connected to the battery panel 30 above the support assembly 10 through a first pressing element so as to press and hold the battery panel 30;

the second hinge assembly is fixedly connected to the support assembly 10 through a second fixing element, and is connected to the battery panel 30 above the support assembly 10 through a second pressing element so as to press and hold the battery panel 30;

the third hinge assembly is fixedly connected to the support assembly 10 through a third fixing element, and the third hinge assembly is connected to the battery panel 30 above the support assembly 10 through a third pressing element so as to press and hold the battery panel 30;

the fourth hinge assembly is fixedly connected to the support assembly 10 through a fourth fixing element, and is connected to the battery panel 30 above the support assembly 10 through a fourth pressing element so as to press and hold the battery panel 30;

the fifth hinge assembly is fixedly connected to the support assembly 10 through a fifth fixing element, and the fifth hinge assembly is connected to the battery panel 30 above the support assembly 10 through a fifth pressing element so as to press and hold the battery panel 30;

the sixth hinge assembly is fixedly connected to the support assembly 10 through a sixth fixing element, and the sixth hinge assembly is connected to the battery panel 30 above the support assembly 10 through a sixth pressing element so as to press and hold the battery panel 30;

the baffle 20 is coupled to the battery plate 30 to position the battery plate 30.

More specifically, the first hinge assembly includes: the first fixing element 10111, the first pressing element 10121, the screw 10131, the screw 10132, the screw 10141, the screw 10142, the snap rings 10151, the snap rings 10152, the snap rings 10153, the snap rings 10154, the nut 10171, the nut 10172, the hole 10181, and the hole 10182;

the second hinge assembly includes: a second fixing element 10112, a second pressing element 10122, a screw 10133, a screw 10134, a screw 10143, a screw 10144, a snap 10155, a snap 10156, a snap 10157, a snap 10158, a nut 10173, a nut 10174, a hole 10183 and a hole 10184;

the third hinge assembly includes: third fixing element 10113, third pressure holding element 10123, screw 10135, screw 10136, screw 10145, screw 10146, snap tab 10159, snap tab 10160, snap tab 10161, snap tab 10162, nut 10175, nut 10176, hole 10185 and hole 10186;

the fourth hinge assembly includes: fourth fastening component 10211, fourth holding element 10221, screw 10231, screw 10232, screw 10241, screw 10242, snap dome 10251, snap dome 10252, snap dome 10253, snap dome 10254, nut 10271, nut 10272, hole 10281, hole 10282;

the fifth hinge assembly includes: fifth fixing component 10212, fifth holding element 10222, screw 10233, screw 10234, screw 10243, screw 10244, snap tab 10255, snap tab 10256, snap tab 10257, snap tab 10258, nut 10273, nut 10274, first hole 10283 and second hole 10284; and

the sixth hinge assembly includes: sixth fixation assembly 10213, sixth holding down element 10223, screw 10235, screw 10236, screw 10245, screw 10246, snap tab 10259, snap tab 10260, snap tab 10261, snap tab 10262, nut 10275, nut 10275, hole 10285, and hole 10286.

More specifically, a screw 10141 passing through a snap ring 10151, a snap ring 10152 and a hole 101301 on the first fixing element 10111 is rotatably connected with the first pressing element 10121; a screw 10142 which passes through the snap ring 10154, the snap ring 10151 and the hole 101302 on the first fixing element 10111 is rotationally connected with the first pressing and holding element 10121;

the screw holes 101304 on the first support bar 101 are connected with the screw holes 10181 on the first fixing component 10111 through the screws 10131; the screw 10131 penetrating through the screw hole 10181 and the screw hole 101304 is rotatably connected with the nut 10171;

the screw 101305 on the first support bar 101 is connected with the screw 10182 on the first fixing component 10111 through the screw 10132; the screw 10132 passing through the screw 10182 and the screw 101305 is rotatably connected with the nut 10172.

More specifically, a screw 10143 passing through snap ring 10155, snap ring 10156, hole 101303 on the second fixing element 10112 is rotatably connected with the second pressing element 10122; a screw 10144 which passes through the snap ring 10158, the snap ring 10157 and the hole 101304 on the second fixing element 10112 is rotationally connected with the second pressing and holding element 10122;

the screw holes 101306 on the first supporting rod 101 are connected with the screw holes 10183 on the second fixing component 10112 through the screws 10133; the screw 10133 passing through the screw 10183 and the screw 101306 is rotatably connected with the nut 10173;

the screw hole 10197 on the first supporting rod 101 is connected with the screw hole 10184 on the second fixing component 10112 through the screw 10134; the screw 10134 passing through the screw holes 10184 and 10197 is rotatably connected with the nut 10174.

More specifically, a screw 10145 passing through the snap 10159, the snap 10160 and the hole 101305 on the third fixing element 10113 is rotatably connected with the second pressing and holding element 10123; a screw 10146 which passes through the snap rings 10162, the snap rings 10161 and the hole 101306 on the second fixing element 10113 is rotationally connected with the second pressing and holding element 10123;

the screw 10198 on the first supporting rod 101 is connected with the screw 10185 on the third fixing component 10113 through the screw 10135; the screw 10135 penetrating through the screw hole 10185 and the screw hole 10198 is rotationally connected with the nut 10175;

the screw 10199 on the first supporting rod 101 is connected with the screw 10186 on the third fixing component 10113 through the screw 10136; the screw 10136 which passes through the screw hole 10186 and the screw hole 10199 is rotatably connected with the nut 10176.

More specifically, a screw 10241 passing through a snap ring 10251, a snap ring 10252 and a hole 102301 on the fourth fixing element 10211 is rotatably connected with the fourth pressing element 10221; a screw 10242 passing through snap 10253, snap 10254 and hole 102302 on fourth fixing element 10211 is rotatably connected with fourth pressure holding element 10221;

the screw 102304 on the second support rod 102 is connected with the screw 10281 on the fourth fixing component 10211 through the screw 10231; a screw 10231 penetrating through the screw holes 10281 and the screw holes 102304 is rotationally connected with the nut 10271;

the screw holes 102305 on the second support rod 102 and the screw holes 10282 on the fourth fixing component 10211 are connected through the screws 10232; the screw 10232 passing through the screw hole 10282 and the screw hole 102305 is rotatably connected with the nut 10272.

More specifically, a screw 10243 passing through a snap 10255, a snap 10256 and a hole (102303) on the fifth fixing element 10212 is rotatably connected with the fifth pressing element 10222; a screw 10244 which passes through a snap 10258, a snap 10257 and a hole 102304 on the fifth fixing element 10212 is rotationally connected with a fifth pressing element 10222;

the screw 102306 on the second support rod 102 is connected with the screw 10283 on the fifth fixing component 10212 through the screw 10233; the screw 10233 penetrating through the screw holes 10283 and 102306 is in rotary connection with the nut 10273;

the screw hole 10297 on the second support rod 102 is connected with the screw hole 10284 on the fifth fixing component 10212 through the screw 10234; the screw 10234 passing through the screw hole 10284 and the screw hole 10297 is rotatably connected with the nut 10274.

More specifically, a screw 10245 passing through snap 10259, snap 10260 and hole 102305 on sixth fixing element 10213 is rotatably connected with sixth holding element 10223; a screw 10246 which passes through a snap ring 10262, the snap ring 10261 and a hole 102306 on the sixth fixing element 10213 is rotationally connected with a sixth pressure holding element 10223;

the screw 10298 on the second support rod 102 is connected with the screw 10285 on the sixth fixing component 10213 through the screw 10235; a screw 10235 passing through the screw holes 10285 and the screw holes 10298 is rotatably connected with the nut 10275;

the screw holes 10299 on the second support rod 102 and the screw holes 10286 on the sixth fixing component 10213 are connected through the screw 10236; the screw 10236 passing through the screw holes 10286 and the screw holes 10299 is rotatably connected with the nut 10276.

It should be noted that the hole 10191 on the first support bar 101 and the hole on the first side 1036 are directly connected by a screw 1031, and the screw 1031 passing through the hole 10191 and the hole on the first side 1036 is rotatably connected with a nut 1032;

the hole 10291 on the second support bar 102 and the hole on the second side 1037 are directly connected by a screw 1033, and the screw 1033 passing through the hole 10291 and the hole on the second side 1037 is rotatably connected with a nut 1034;

the hole 10192 on the first support rod 101 is directly connected with the first hole on the first end 201 through a screw 2011; the hole 10193 on the first support rod 101 is directly connected with the second hole on the first end 201 through a screw 2012;

a screw 2011 which passes through the hole 10192 and the first hole on the first end 201 is rotationally connected with the nut 2013;

a screw 2012 passing through the hole 10193 and the second hole on the first end 201 is rotatably connected with a nut 2014;

the hole 10292 on the second support bar 102 is directly connected with the first hole on the second end 202 through the screw 2015; the hole 10293 on the second support rod 102 is directly connected with the second hole on the second end 202 through the screw 2016;

a screw 2015 passing through the hole 10292 and the first hole on the second end 202 is rotatably connected with a nut 2017; a screw 2016 threaded through the aperture 10293 and the second aperture in the second end 202 is rotatably coupled to a nut 2018.

It should be noted that fig. 1-4 are only used for illustrating the embodiments of the present invention, and should not be construed as limiting the scope of the present invention.

Claims (10)

1. The utility model provides an utilize hinge structure to fix solar cell panel's support which characterized in that includes:

a support assembly (10), a baffle (20) and a hinge structure;

wherein the support assembly (10) comprises: a first support rod (101), a second support rod (102) and a third support rod (103);

wherein the first end (201) of the baffle (20) is fixedly connected below the first end (101100) of the first support rod (101); the second end (202) of the baffle (20) is fixedly connected below the first end (102100) of the second support rod (102); a first side (1036) of the third support bar (103) is connected to the first support bar (101); the second side (1037) of the third support bar (103) is connected with the second support bar (102);

a solar panel (30) is placed above the supporting assembly (10); the hinge structure is fixedly connected with the support assembly (10), and the hinge structure is connected with the solar panel (30) so as to press and hold the solar panel (30) on the support assembly (10).

2. The bracket for fixing a solar cell panel using a hinge structure according to claim 1,

the hinge structure includes: the hinge assembly comprises a first hinge assembly, a second hinge assembly, a third hinge assembly, a fourth hinge assembly, a fifth hinge assembly and a sixth hinge assembly;

the first hinge assembly is fixedly connected to the support assembly (10) through a first fixing element, and is connected with the battery panel (30) above the support assembly (10) through a first pressing element so as to press and hold the battery panel (30);

the second hinge assembly is fixedly connected to the support assembly (10) through a second fixing element, and is connected with the battery panel (30) above the support assembly (10) through a second pressing element so as to press and hold the battery panel (30);

the third hinge assembly is fixedly connected to the support assembly (10) through a third fixing element, and is connected with the battery plate (30) above the support assembly (10) through a third pressing element so as to press and hold the battery plate (30);

the fourth hinge assembly is fixedly connected to the support assembly (10) through a fourth fixing element, and is connected with the battery panel (30) above the support assembly (10) through a fourth pressing element so as to press and hold the battery panel (30);

the fifth hinge assembly is fixedly connected to the support assembly (10) through a fifth fixing element, and is connected with the battery plate (30) above the support assembly (10) through a fifth pressing element so as to press and hold the battery plate (30);

the sixth hinge assembly is fixedly connected to the support assembly (10) through a sixth fixing element, and the sixth hinge assembly is connected with the battery panel (30) above the support assembly (10) through a sixth pressing element so as to press the battery panel (30);

the baffle (20) is connected with the battery plate (30) to place the battery plate (30).

3. The bracket for fixing a solar cell panel using a hinge structure as claimed in claim 2,

the first hinge assembly includes: the device comprises a first fixing element (10111), a first pressing and holding element (10121), a screw rod (10131), a screw rod (10132), a screw rod (10141), a screw rod (10142), a metal dome sheet (10151), a metal dome sheet (10152), a metal dome sheet (10153), a metal dome sheet (10154), a nut (10171), a nut (10172), a hole (10181) and a hole (10182);

the second hinge assembly includes: the second fixing element (10112), the second pressing and holding element (10122), the screw (10133), the screw (10134), the screw (10143), the screw (10144), the metal dome sheet (10155), the metal dome sheet (10156), the metal dome sheet (10157), the metal dome sheet (10158), the nut (10173), the nut (10174), the hole (10183) and the hole (10184);

the third hinge assembly includes: a third fixing element (10113), a third pressing and holding element (10123), a screw rod (10135), a screw rod (10136), a screw rod (10145), a screw rod (10146), a metal dome sheet (10159), a metal dome sheet (10160), a metal dome sheet (10161), a metal dome sheet (10162), a nut (10175), a nut (10176), a hole (10185) and a hole (10186);

the fourth hinge assembly includes: a fourth securing component (10211), a fourth holding element (10221), a threaded rod (10231), a threaded rod (10232), a threaded rod (10241), a threaded rod (10242), snap dome (10251), snap dome (10252), snap dome (10253), snap dome (10254), a nut (10271), a nut (10272), a hole (10281), a hole (10282);

the fifth hinge assembly includes: a fifth fixing component (10212), a fifth pressure holding element (10222), a screw rod (10233), a screw rod (10234), a screw rod (10243), a screw rod (10244), a snap dome (10255), a snap dome (10256), a snap dome (10257), a snap dome (10258), a nut (10273), a nut (10274), a first hole (10283) and a second hole (10284); and

the sixth hinge assembly includes: sixth fixation assembly (10213), sixth holding element (10223), screw (10235), screw (10236), screw (10245), screw (10246), snap dome (10259), snap dome (10260), snap dome (10261), snap dome (10262), nut (10275), nut (10275), eyelet (10285), eyelet (10286).

4. The bracket for fixing a solar cell panel using a hinge structure as claimed in claim 3,

a screw rod (10141) which passes through the snap dome (10151), the snap dome (10152) and a hole (101301) on the first fixing element (10111) is rotationally connected with the first pressing and holding element (10121); a screw rod (10142) which passes through the snap dome (10154), the snap dome (10151) and a hole (101302) on the first fixing element (10111) is rotationally connected with the first pressing and holding element (10121);

the screw hole (101304) on the first supporting rod (101) is connected with the screw hole (10181) on the first fixing component (10111) through the screw rod (10131); the screw (10131) passing through the screw hole (10181) and the screw hole (101304) is rotationally connected with the nut (10171);

the screw hole (101305) on the first supporting rod (101) is connected with the screw hole (10182) on the first fixing component (10111) through the screw rod (10132); and a screw rod (10132) passing through the screw hole (10182) and the screw hole (101305) is rotatably connected with the nut (10172).

5. The bracket for fixing a solar cell panel using a hinge structure according to claim 3,

a screw (10143) penetrating through the snap dome (10155), the snap dome (10156) and a hole (101303) on the second fixing element (10112) is rotationally connected with the second pressing element (10122); a screw rod (10144) which passes through the snap dome (10158), the snap dome (10157) and the hole (101304) on the second fixing element (10112) is rotationally connected with the second pressing and holding element (10122);

the screw hole (101306) on the first supporting rod (101) is connected with the screw hole (10183) on the second fixing component (10112) through the screw rod (10133); a screw rod (10133) passing through the screw hole (10183) and the screw hole (101306) is rotatably connected with the nut (10173);

the screw hole (10197) on the first supporting rod (101) is connected with the screw hole (10184) on the second fixing component (10112) through the screw (10134); and a screw rod (10134) penetrating through the screw hole (10184) and the screw hole (10197) is rotatably connected with the nut (10174).

6. The bracket for fixing a solar cell panel using a hinge structure as claimed in claim 3,

a screw rod (10145) which passes through the snap dome (10159), the snap dome (10160) and a hole (101305) on the third fixing element (10113) is rotationally connected with the second pressing and holding element (10123); a screw rod (10146) which passes through the snap dome (10162), the snap dome (10161) and a hole (101306) on the second fixing element (10113) is rotationally connected with the second pressing and holding element (10123);

the screw hole (10198) on the first supporting rod (101) is connected with the screw hole (10185) on the third fixing component (10113) through the screw rod (10135); a screw rod (10135) penetrating through the screw hole (10185) and the screw hole (10198) is rotatably connected with the nut (10175);

the screw hole (10199) on the first supporting rod (101) is connected with the screw hole (10186) on the third fixing component (10113) through the screw rod (10136); and a screw rod (10136) passing through the screw hole (10186) and the screw hole (10199) is rotatably connected with the nut (10176).

7. The bracket for fixing a solar cell panel using a hinge structure as claimed in claim 3,

a screw rod (10241) which penetrates through a snap dome (10251), the snap dome (10252) and a hole (102301) in the fourth fixing element (10211) is in rotary connection with the fourth pressing and holding element (10221); a screw rod (10242) which penetrates through a snap dome (10253), the snap dome (10254) and a hole (102302) in the fourth fixing element (10211) is rotatably connected with a fourth pressing and holding element (10221);

the screw holes (102304) on the second support rod (102) are connected with the screw holes (10281) on the fourth fixing component (10211) through the screw (10231); a screw rod (10231) penetrating through the screw hole (10281) and the screw hole (102304) is rotatably connected with the nut (10271);

the screw hole (102305) on the second support rod (102) is connected with the screw hole (10282) on the fourth fixing component (10211) through the screw rod (10232); and a screw (10232) passing through the screw hole (10282) and the screw hole (102305) is rotatably connected with the nut (10272).

8. The bracket for fixing a solar cell panel using a hinge structure as claimed in claim 3,

a screw rod (10243) which penetrates through a snap dome (10255), the snap dome (10256) and a hole (102303) in the fifth fixing element (10212) is in rotary connection with the fifth pressing and holding element (10222); a screw rod (10244) which penetrates through a snap dome (10258), the snap dome (10257) and a hole (102304) in the fifth fixing element (10212) is rotationally connected with the fifth pressing and holding element (10222);

the screw holes (102306) on the second support rod (102) are connected with the screw holes (10283) on the fifth fixing component (10212) through the screws (10233); a screw rod (10233) penetrating through the screw hole (10283) and the screw hole (102306) is rotatably connected with the nut (10273);

the screw hole (10297) on the second support rod (102) is connected with the screw hole (10284) on the fifth fixing component (10212) through the screw rod (10234); and a screw rod (10234) passing through the screw hole (10284) and the screw hole (10297) is rotatably connected with the nut (10274).

9. The bracket for fixing a solar cell panel using a hinge structure as claimed in claim 3,

a screw rod (10245) which penetrates through a snap dome (10259), the snap dome (10260) and a hole (102305) in the sixth fixing element (10213) is in rotary connection with the sixth pressing and holding element (10223); a screw rod (10246) which passes through a snap ring (10262), the snap ring (10261) and a hole (102306) on the sixth fixing element (10213) is rotationally connected with the sixth pressing and holding element (10223);

the screw holes (10298) on the second supporting rod (102) are connected with the screw holes (10285) on the sixth fixing component (10213) through the screws (10235); a screw rod (10235) passing through the screw hole (10285) and the screw hole (10298) is rotatably connected with the nut (10275);

the screw hole (10299) on the second support rod (102) is connected with the screw hole (10286) on the sixth fixing component (10213) through the screw (10236); and a screw (10236) which passes through the screw hole (10286) and the screw hole (10299) is rotatably connected with the nut (10276).

10. The bracket for fixing a solar cell panel using a hinge structure according to claim 1,

a hole (10191) in the first support rod (101) is directly connected with a hole in the first side (1036) through a screw (1031), and the screw (1031) penetrating through the hole (10191) and the hole in the first side (1036) is rotatably connected with a nut (1032);

a hole (10291) on the second support bar (102) is directly connected with a hole on the second side (1037) through a screw rod (1033), and the screw rod (1033) penetrating through the hole (10291) and the hole on the second side (1037) is rotatably connected with a nut (1034);

a hole (10192) in the first supporting rod (101) is directly connected with a first hole in the first end (201) through a screw (2011); a hole (10193) in the first supporting rod (101) is directly connected with a second hole in the first end (201) through a screw (2012);

a screw (2011) which passes through the hole (10192) and the first hole on the first end (201) is rotationally connected with a nut (2013);

a screw (2012) passing through the hole (10193) and the second hole on the first end (201) is rotatably connected with a nut (2014); the hole (10292) on the second support bar (102) is directly connected with the first hole on the second end (202) through the screw (2015); the hole (10293) in the second support rod (102) is directly connected with the second hole in the second end (202) through the screw rod (2016);

a screw (2015) passing through the hole (10292) and the first hole on the second end (202) is rotatably connected with a nut (2017); a screw (2016) and nut (2018) passing through said aperture (10293) and said second aperture in said second end (202) are rotatably coupled.

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