Summary of the invention
Based on this, it is necessary to overcome the deficiencies of existing technologies, provide a kind of solar cell module bracket and solar energy hair
Electric installation, it can be convenient for transporting, and can be reduced occupied space in transportational process.
Its technical solution is as follows: a kind of solar cell module bracket, comprising: the first installation part;First unlock piece, it is described
First unlock piece and first installation part interval are arranged;First elastic component, first elastic component are set to first installation
Between part and first unlock piece, the first elastic component elasticity abuts first installation part and first unlock piece;
First battery component mounting plate, the first battery component mounting plate are rotatably connected with first installation part, and described first
Battery component mounting plate is for installing solar cell module;And first connector, the first connector connection described first
Unlock piece and the first battery component mounting plate, the phase between first connector and the first battery component mounting plate
The position being connected on the first battery component mounting plate with first connector to adjustable angle and first installation
Part is separately;First unlock piece can move and compress first elastic component to the direction close to first installation part,
First elastic component is compressed when first unlock piece is mobile, it is described when first elastic component being made to move to compressive state
First battery component mounting plate, which is in, folds collapsed state;It is described after first elastic component is resetted from the compressive state
First battery component mounting plate is in unfolded state.
A kind of device of solar generating, it is described including the solar cell module bracket and solar cell module
Solar cell module is installed on the first battery component mounting plate.
Above-mentioned solar cell module bracket and device of solar generating, when do not need in use, press first unlock
Part makes the first unlock piece is mobile to compress first elastic component, when the first elastic component moves to compressive state, the first battery component
Mounting plate corresponding sports can so be convenient for transporting, can be reduced occupied space in transportational process to collapsed state is folded;When
It needs to be unfolded in use, unclamping the first unlock piece, the first elastic component resets and drives the first unlock piece along support rod towards separate
The direction of first installation part is mobile, and the first battery component mounting plate just moves to unfolded state from folding collapsed state.
The solar cell module bracket further includes support rod in one of the embodiments, first installation
Part is the first installation shell, and first unlock piece is the first solution lock shell, and first connector is first connecting rod;Described
One installation shell is installed on the support rod, and the first solution lock shell is equipped with the first through hole for being arranged the support rod, and
The first solution lock shell can be moved along the support rod.
The first connecting rod is curved rod in one of the embodiments,;The first battery component mounting plate passes through two
A first connecting rod is connected with the first solution lock shell.
The solar cell module bracket further includes the second installation shell, the second solution in one of the embodiments,
Lock shell, the second battery component mounting plate, second connecting rod and the second elastic component;
The second installation shell is installed on the support rod, and the second solution lock shell, which is equipped with, is arranged the support rod
The second through-hole, and it is described second solution lock shell can be moved along the support rod;
Second battery component mounting plate is rotatably connected with the second installation shell, the second battery component mounting plate
For installing solar cell module, described second connecting rod one end is rotatably connected with the second installation shell, and described second
The connecting rod other end is rotatably connected with the second solution lock shell;
Second elastic component one end is connected with the second installation shell transmission, the second elastic component other end and institute
The transmission of the second solution lock shell is stated to be connected;When the second solution lock shell moves compression second elasticity along the support rod
Part, when second elastic component being made to move to compressive state, the second battery component mounting plate, which is in, folds collapsed state;When
For second elastic component after compressive state reset, the second battery component mounting plate is in unfolded state;
The first installation shell is equipped with first shaft hole, and the support rod is rotatably sleeved in the first shaft hole,
The first mounting shell body is located at the top of the second solution lock shell, and the bottom surface of the first installation shell is equipped with actuating sleeve,
The actuating sleeve is set in outside the support rod, and the actuating sleeve is equipped with socket, institute towards the end of the second solution lock shell
The top surface for stating the second solution lock shell is equipped with inserted block corresponding with the socket, when the first installation shell drives the actuating sleeve
When rotation, the direction that the inserted block drives the second solution lock shell to be directed away from the first installation shell is mobile.
The first battery component mounting plate is multiple with the first connecting rod in one of the embodiments, described
First battery component mounting plate is provided at circumferentially spaced around the side of the first installation shell, the first battery component mounting plate
It is correspondingly arranged with the first connecting rod;The second battery component mounting plate with the second connecting rod be it is multiple, described second
Battery component mounting plate is provided at circumferentially spaced around the side of the second installation shell, the second battery component mounting plate and institute
Second connecting rod is stated to be correspondingly arranged.
When the second battery component mounting plate is in folding collapsed state in one of the embodiments, described second
Solve lock shell and it is described second install shell it is inconsistent, a part of the inserted block is located at outside the socket, the inserted block it is another
A part is located in the socket.
The wherein one side of the inserted block is the tilted with the axle center of the support rod in one of the embodiments,
One guiding surface, the another side of the inserted block be the parallel surface parallel with the axle center of the support rod or tilt the
Two guiding surfaces;The socket inner sidewall matches with the two sides of the inserted block.
First elastic component is the first spring in one of the embodiments, and first spring is set in the branch
Outside strut, first spring one end and it is described first installation shell top surface it is inconsistent, the first elastic component other end with
The bottom surface of the first solution lock shell is inconsistent;
Second elastic component is second spring, and the second spring is set in outside the support rod, the second spring
One end and the top surface of the second installation shell are inconsistent, the bottom of the second elastic component other end and the second solution lock shell
Face is inconsistent.
The first solution lock shell is provided with the first bushing in one of the embodiments, and first bushing is set in
On the support rod, first bushing can be up and down along the support rod;
The second solution lock shell is provided with the second bushing, and second bushing is set on the support rod, and described the
Two bushings can be up and down along the support rod.
The second installation shell is equipped with the second axis hole, the top of the second installation shell in one of the embodiments,
Face is connected with the support sleeve being connected to second axis hole, and the support rod passes through second axis hole and is set in the support sleeve
Interior, the support rod is equipped with boss compatible with second axis hole, circumferential direction of the boss in second axis hole
Upper relatively fixed in second axis hole, the boss and the support sleeve end are inconsistent, and the support sleeve passes through described
Second through-hole and the first installation shell contradict and cooperate, and the second solution lock shell can be living up and down along the support sleeve
It is dynamic.
The solar cell module bracket further includes the first locking nut, the branch in one of the embodiments,
The lateral wall of strut is equipped with the first screw thread cooperated with first locking nut, and first locking nut is set in the branch
On strut, end of first locking nut with the support sleeve far from the second installation shell is inconsistent.
The solar cell module bracket further includes the second locking nut, the branch in one of the embodiments,
The lateral wall of strut is equipped with the second screw thread cooperated with second locking nut, and second locking nut is set in the branch
On strut, second locking nut is moved for limiting the first installation shell along the support rod.
Third bushing, the third are equipped at the first shaft hole of the first installation shell in one of the embodiments,
Bushing is located at the top of the top surface of the first installation shell;Second locking nut is located in the third bushing, and with
The inner sidewall of the third bushing is equipped with gap.
The solar cell module bracket further includes the axial direction along the support rod in one of the embodiments,
Direction is sequentially sleeved at first bearing and second bearing outside the support rod, the first bearing and described second from top to bottom
Bearing is respectively positioned in the first shaft hole, and the first bearing and the second bearing are located at the first installation shell
Bottom plate two sides;Second locking nut, which is contradicted with the first bearing backwards to the end face of the second bearing, matches
It closes;The support sleeve end pass through after second through-hole is extend into the actuating sleeve respectively with the first installation shell,
The second bearing contradicts cooperation backwards to the end face of the first bearing.
In one of the embodiments, around described on side of the first solution lock shell towards the first installation shell
First through hole is equipped with the first groove, and the end of first elastic component is contained in first groove.
In one of the embodiments, around described on side of the second solution lock shell towards the second installation shell
Second through-hole is equipped with the second groove, and the second mounting shell dignity is on the side of the second solution lock shell around second axis
Hole is equipped with third groove;One end of second elastic component is contained in second groove, second elastic component it is another
End is contained in the third groove.
Finite place piece, the locating part and first unlock are set on the support rod in one of the embodiments,
The top surface of shell contradicts cooperation.Specifically, locating part is the limited screw that support bar top is arranged in.
The first support, first solution are provided on the first battery component mounting plate in one of the embodiments,
The second support is provided in lock shell, described first connecting rod one end is rotatably connected with first support, the first connecting rod
The other end is rotatably connected with second support.
The side of the first installation shell is equipped with axle sleeve, the first battery component peace in one of the embodiments,
The end of loading board is provided with shaft, and the shaft is rotationally installed in the axle sleeve.
Detailed description of the invention
Fig. 1 is solar cell module bracket described in one embodiment of the invention on the axial direction of the support rod
Cross section structure schematic diagram;
Fig. 2 is the first installation shell, first electricity on solar cell module bracket upper layer described in one embodiment of the invention
Pond unit installing board, first connecting rod, first solution lock shell detonation configuration figure;
Fig. 3 is the first installation shell, first electricity on solar cell module bracket upper layer described in one embodiment of the invention
Pond unit installing board, first connecting rod, first solution lock shell the wherein viewing angle constructions figure combined;
Fig. 4 is the first installation shell, first electricity on solar cell module bracket upper layer described in one embodiment of the invention
Pond unit installing board, first connecting rod, first solution lock shell another viewing angle constructions figure combined;
Fig. 5 is the second installation shell, the second electricity of solar cell module bracket lower layer described in one embodiment of the invention
Pond unit installing board, second connecting rod, second solution lock shell the wherein viewing angle constructions figure combined;
Fig. 6 is the second installation shell, the second electricity of solar cell module bracket lower layer described in one embodiment of the invention
Pond unit installing board, second connecting rod, second solution lock shell detonation configuration figure;
Fig. 7 is that solar cell module bracket described in one embodiment of the invention removes support rod and the first battery component is pacified
Structure chart when loading board and the second battery component mounting plate are unfolded.
Appended drawing reference:
100, support rod, 110, boss, the 120, first screw thread, the 130, second screw thread, 140, locating part, the 210, first installation
Shell, 211, actuating sleeve, 212, socket, 213, third bushing, 214, axle sleeve, 215, bottom plate, the 220, first solution lock shell, 221,
First bushing, the 222, first groove, the 223, second support, the 230, first battery component mounting plate, the 231, first support, 232, axis
Bar, 233, shaft set, 240, first connecting rod, the 250, first elastic component, the 260, second locking nut, 270, first bearing, 280,
Second bearing, the 310, second installation shell, 311, support sleeve, 312, third groove, the 320, second solution lock shell, 321, inserted block,
322, the first guiding surface, 323, parallel surface, the 324, second bushing, the 325, second groove, the 326, second axis hole, the 330, second electricity
Pond unit installing board, 340, second connecting rod, the 350, second elastic component, the 360, first locking nut, 400, solar cell module.
Specific embodiment
In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, with reference to the accompanying drawing to the present invention
Specific embodiment be described in detail.Many details are explained in the following description in order to fully understand this hair
It is bright.But the invention can be embodied in many other ways as described herein, those skilled in the art can be not
Similar improvement is done in the case where violating intension of the present invention, therefore the present invention is not limited by the specific embodiments disclosed below.
In the description of the present invention, it is to be understood that, term " first ", " second " are used for description purposes only, and cannot
It is interpreted as indication or suggestion relative importance or implicitly indicates the quantity of indicated technical characteristic.Define as a result, " the
One ", the feature of " second " can explicitly or implicitly include at least one of the features.In the description of the present invention, " multiple "
It is meant that at least two, such as two, three etc., unless otherwise specifically defined.
It in the description of the present invention, it is to be understood that, can be with when an element is considered as " connection " another element
It is directly to another element or may be simultaneously present intermediary element.On the contrary, when element be referred to as " direct " with it is another
When element connects, intermediary element is not present.
Above-mentioned solar cell module bracket, when not needing to move the first unlock piece in use, press the first unlock piece
Dynamic pressure the first elastic component 250 of contracting, when the first elastic component 250 moves to compressive state, 230 phase of the first battery component mounting plate is met the tendency of
It moves and folds collapsed state, can so be convenient for transporting, can be reduced occupied space in transportational process;When needs are unfolded to use
When, the first unlock piece is unclamped, the first elastic component 250 resets and drives the first unlock piece along support rod 100 towards far from the first peace
The direction of piece installing is mobile, and the first battery component mounting plate 230 just moves to unfolded state from folding collapsed state.
Further, solar cell module bracket further includes support rod 100.First installation part is the first installation shell
210, the first unlock piece is the first solution lock shell 220, and the first connector is first connecting rod 240.First installation shell 210 is installed in
On support rod 100, the first solution lock shell, which is equipped with, is arranged the first through hole of support rod 100, and the first solution lock shell 220 can be along
Support rod is mobile.
In this way, the first solution lock shell 220 moves the first elastic component 250 of compression along support rod 100, make the first elastic component
250 move to compressive state;After unclamping the first solution lock shell 220, the first solution lock shell 220 moves reset along support rod 100.
The moving stability of first solution lock shell 220 is more preferable, and support rod 100 is played a supporting role.
Further, first connecting rod 240 is curved rod;First battery component mounting plate 230 passes through two first connecting rods 240
It is connected with the first solution lock shell 220.In this way, curved rod is more conducive to the state switching of the first battery component mounting plate 230;Two
When the first battery component mounting plate 230, the stability of the first battery component mounting plate 230 is more preferable for one connecting rod, 240 synchronous effect.
In one embodiment, Fig. 1, Fig. 4, Fig. 5, Fig. 6 and Fig. 7 are please referred to, solar cell module bracket further includes
Two installation shells 310, second solve lock shell 320, the second battery component mounting plate 330, second connecting rod 340 and the second elastic component
350。
Second installation shell 310 is installed on support rod 100, and the second solution lock shell 320, which is equipped with, is arranged the of support rod 100
Two through-holes, and the second solution lock shell 320 can be moved along support rod 100.
Second battery component mounting plate 330 is rotatably connected with the second installation shell 310, the second battery component mounting plate
330 for installing solar cell module 400, and 340 one end of second connecting rod is rotatably connected with the second installation shell 310, and second
340 other end of connecting rod is rotatably connected with the second solution lock shell 320.
Second elastic component, 350 one end is connected with the second installation transmission of shell 310,350 other end of the second elastic component and second
The transmission of lock shell 320 is solved to be connected.When the second solution lock shell 320 moves the second elastic component 350 of compression along support rod 100, make the
When two elastic components 350 move to compressive state, the second battery component mounting plate 330, which is in, folds collapsed state;When the second elasticity
For part 350 after compressive state reset, the second battery component mounting plate 330 is in unfolded state.
First installation shell 210 is equipped with first shaft hole, and support rod 100 is rotatably sleeved in first shaft hole, the first peace
The top that shell 210 is located at the second solution lock shell 320 is filled, the bottom surface of the first installation shell 210 is equipped with actuating sleeve 211, actuating sleeve
211 are set in outside support rod 100, and actuating sleeve 211 is equipped with socket 212, the second solution lock housing towards the end of the second solution lock shell 320
The top surface of body 320 is equipped with inserted block 321 corresponding with socket 212.When the first installation shell 210 drives actuating sleeve 211 to rotate, insert
The direction that block 321 drives the second solution lock shell 320 to be directed away from the first installation shell 210 is mobile.
In this way, first battery component mounting plate 230 and the second battery component mounting plate 330 are when in running order
Solar cell module 400 in unfolded state, the first battery component mounting plate 230, the second battery component mounting plate 330
It accordingly is in working condition, it is larger to the utilization rate of sunlight;When requiring transformation into folding collapsed state, first is first passed through
Installing shell 210 drives actuating sleeve 211 to rotate, and inserted block 321 just drives the second solution lock shell 320 to be directed away from the first installation shell
210 direction is mobile, and the second solution lock shell 320 moves the second elastic component 350 of compression along support rod 100 at this time, makes the second bullet
Property part 350 move to compressive state, then the second battery component mounting plate 330 presses the first solution just in collapsed state is folded
Lock shell 220 makes the first solution lock shell 220 move the first elastic component 250 of compression, the first elastic component 250 fortune along support rod 100
When moving compressive state, 230 corresponding sports of the first battery component mounting plate to folding collapsed state.Conversely, when unclamping the first solution
Lock shell 220, the first solution lock shell 220 reset under the restoring force effect of the first elastic component 250, the first battery component mounting plate
230 corresponding sports are to unfolded state, and second solves lock shell 320 resets under the restoring force effect of the second elastic component 350, the second electricity
Unit installing board 330 corresponding sports in pond are to unfolded state.That is, just can rapidly be realized rotating with by way of pressing
The folder function of solar cell module 400, it is easy to operate.
In one embodiment, referring again to Fig. 1 to Fig. 3, the first battery component mounting plate 230 and first connecting rod 240 are equal
To be multiple, the first battery component mounting plate 230 is provided at circumferentially spaced around the side of the first installation shell 210, the first battery component
Mounting plate 230 is correspondingly arranged with first connecting rod 240.First battery component mounting plate 230 is specially four, and around the first mounting shell
The side of body 210 is equally circumferentially spaced, and each first battery component mounting plate 230 correspondence passes through one, two or three
First connecting rod 240 is connected with the first solution lock shell 220.In this way, driving such as four can be synchronized when pressing the first solution lock shell 220
A first battery component mounting plate 230, which synchronizes to be folded down, packs up movement, to can install for example on the first installation shell 210
Four solar cell modules 400, and can be realized the synchronous expansion work or folding of such as four solar cell modules 400
Overlapping rises.
In one embodiment, referring again to Fig. 1, Fig. 5 to Fig. 7, the second battery component mounting plate 330 and second connecting rod
340 be it is multiple, the second battery component mounting plate 330 around second installation shell 310 side be provided at circumferentially spaced, the second battery
Unit installing board 330 is correspondingly arranged with second connecting rod 340.Second battery component mounting plate 330 is specially four, and around the second peace
The side for filling shell 310 is equally circumferentially spaced, each second battery component mounting plate 330 it is corresponding by one, two or
Three second connecting rods 340 are connected with the second solution lock shell 320.In this way, driving example can be synchronized when pressing the second solution lock shell 320
Movement is packed up as four the second battery component mounting plates 330 synchronize to be folded down, to can install on the second installation shell 310
Such as four solar cell modules 400, and can be realized such as four solar cell modules 400 synchronous expansion work or
Person folds and packs up.
Further, referring again to Fig. 7, when the first battery component mounting plate 230 and the second battery component mounting plate 330 are equal
Interval when in unfolded state, between the first battery component mounting plate 230 and two neighboring second battery component mounting plate 330
Contraposition setting, the interval contraposition between the second battery component mounting plate 330 and two neighboring first battery component mounting plate 230 are set
It sets.Collapsed state is folded when the second battery component mounting plate 330 is in, the first battery component mounting plate 230 is in unfolded state
When, the first battery component mounting plate 230 and the second battery component mounting plate 330 align setting one by one.
It is to be understood that when the first battery component mounting plate 230 and two neighboring second battery component mounting plate 330 it
Between interval align setting when, the first battery component mounting plate 230 is completely in two neighboring second battery component mounting plate 330
Between interval in or the first battery component mounting plate 230 be between two neighboring second battery component mounting plate 330
When in interval, the first battery component mounting plate 230 has in the vertical direction with two neighboring second battery component mounting plate 330
A part overlapping.Interval contraposition between second battery component mounting plate 330 and two neighboring first battery component mounting plate 230
The mode of setting is similar, without repeating.
In this way, when solar cell module 400 is in and organizes work state, so that the first battery component mounting plate 230
Interval between two neighboring second battery component mounting plate 330 aligns setting, the second battery component mounting plate 330 with it is adjacent
Interval between two the first battery component mounting plates 230 aligns setting, the first battery component mounting plate 230 and the second battery pack
Solar cell module 400 on part mounting plate 330 can receive solar energy, the first battery component mounting plate 230 and second
400 quantity of solar cell module on battery component mounting plate 330 can reach 8 or more.
When solar cell module 400 is in off working state, such as in transportational process, then it can pass through rotation first
Shell 210 is installed, the first installation shell 210 drives actuating sleeve 211 to rotate, such as 45 degree of rotation, and inserted block 321 just drives the second solution
The direction that lock shell 320 is directed away from the first installation shell 210 is mobile, and the second solution lock shell 320 is moved along support rod 100 at this time
Dynamic pressure the second elastic component 350 of contracting, makes the second elastic component 350 move to compressive state, the second battery component mounting plate 330 is just in
Fold collapsed state.Collapsed state, the first battery component mounting plate 230 are folded since the second battery component mounting plate 330 is in
When in unfolded state, the first battery component mounting plate 230 and the second battery component mounting plate 330 align setting one by one, at this time
Continue pressing the first solution lock shell 220, the first solution lock shell 220 made to move the first elastic component 250 of compression along support rod 100,
When first elastic component 250 moves to compressive state, 230 corresponding sports of the first battery component mounting plate to folding collapsed state, the
One battery component mounting plate 230 is folded with the second battery component mounting plate 330 one-to-one correspondence, solar cell module
400 to pack up folding effect preferable, can so be convenient for transporting, can be reduced occupied space in transportational process.
In one embodiment, when the second battery component mounting plate 330 is in folding collapsed state, the second solution lock shell
320 is inconsistent with the second installation shell 310, and a part of inserted block 321 is located at outside socket 212, and another part of inserted block 321 is located at
In socket 212.In this way, making the second elasticity when the second solution lock shell 320 moves the second elastic component 350 of compression along support rod 100
When part 350 moves to compressive state, the second battery component mounting plate 330, which is in, folds collapsed state, while the second solution lock shell
320 is inconsistent with the second installation shell 310, and such second installation shell 310 can play limit to the second solution lock shell 320 and make
With being avoided that the second solution lock shell 320 continues on the second elastic component 350 of mobile compression of support rod 100, to be avoided that inserted block
321 completely disengage out out of socket 212.In this way when subsequent second elastic component 350 resets, due to a part of position of inserted block 321
In in socket 212,321 counter motion of inserted block is completely inserted into socket 212, and the rotation of actuating sleeve 211 can be driven to rise and resetted.
In one embodiment, Fig. 4 to Fig. 7 is please referred to, the wherein one side of inserted block 321 is the axle center with support rod 100
The first guiding surface 322 tilted, the another side of inserted block 321 are the parallel surface 323 parallel with the axle center of support rod 100
Or the second guiding surface tilted.212 inner sidewall of socket matches with the two sides of inserted block 321.
In this way, the wherein one side of inserted block 321 is the first guiding surface 322, and when another side is parallel surface 323, first
Installing shell 210 drives actuating sleeve 211 towards when the rotation of a wherein direction, is able to achieve and drives inserted block 321 mobile, the first mounting shell
Body 210 cannot be rotated towards other direction;The wherein one side of inserted block 321 is the first guiding surface 322, and another side is and the
When consistent the second guiding surface of one guiding surface 322, the first installation shell 210 drives actuating sleeve 211 towards a wherein side
It to when rotation, is able to achieve and drives inserted block 321 mobile, the first installation shell 210 cannot be rotated towards other direction;Inserted block 321
Wherein one side is the first guiding surface 322, when another side is second guiding surface opposite with the first guiding surface 322,
When first installation shell 210 drives actuating sleeve 211 to rotate towards any one direction, it is able to achieve and drives inserted block 321 mobile.
In a specific embodiment, referring again to Fig. 1, the first elastic component 250 is the first spring, and the first spring is set in
Outside support rod 100, the top surface of the first spring one end and the first installation shell 210 is inconsistent, 250 other end of the first elastic component and the
The bottom surface of one solution lock shell 220 is inconsistent.In addition, the second elastic component 350 is second spring, second spring is set in support rod
Outside 100, second spring one end and the top surface of the second installation shell 310 are inconsistent, 350 other end of the second elastic component and the second unlock
The bottom surface of shell 320 is inconsistent.
In one embodiment, the first solution lock shell 220 is provided with the first bushing 221, and the first bushing 221 is set in support
On bar 100, the first bushing 221 can be up and down along support rod 100.In addition, similarly, the second solution lock shell 320 is arranged
There is the second bushing 324.Second bushing 324 is set on support rod 100, and the second bushing 324 can be living along about 100 support rod
It is dynamic.In this way, the first bushing 221 can make the first solution lock shell 220 more steady when moving along support rod 100, so as to
The first solution lock shell 220 is enough thinned.When the second solution lock shell 320 that second bushing 324 can make is moved along support rod 100 more
It is steady, so as to be thinned second solution lock shell 320.Specifically, the first elastic component 250 is the first spring, the second elastic component
350 be second spring when, the first spring is set in outside the first bushing 221, and second spring is set in outside the second bushing 324.
In one embodiment, the second installation shell 310 is equipped with the second axis hole 326, and the top surface of the second installation shell 310 connects
It is connected to the support sleeve 311 being connected to the second axis hole 326.Support rod 100 passes through the second axis hole 326 and is set in support sleeve 311, props up
Strut 100 is equipped with boss 110 compatible with the second axis hole 326.Boss 110 is opposite in the circumferential direction of the second axis hole 326
It is fixed in the second axis hole 326, boss 110 and 311 end of support sleeve are inconsistent.Support sleeve 311 passes through the second through-hole and first
Shell 210 is installed and contradicts cooperation, the second solution lock shell 320 can be up and down along support sleeve 311.In this way, the second mounting shell
Body 310 is installed on support rod 100, while being played a supporting role by support sleeve 311 to the first installation shell 210.The
Two installation shells 310 are specifically integrated with support sleeve 311.The side of boss 110 is specially polygon or ellipse, from
And it can be realized relatively fixed in the second axis hole 326 in the circumferential direction of the second axis hole 326.
In one embodiment, solar cell module bracket further includes the first locking nut 360.Outside support rod 100
Side wall is equipped with the first screw thread 120 cooperated with the first locking nut 360.First locking nut 360 is set on support rod 100.
End of first locking nut 360 with support sleeve 311 far from the second installation shell 310 is inconsistent.In this way, the first locking nut
360 enable to support sleeve 311 and the second installation shell 310 to be more firmly installed on support rod 100, avoid support sleeve
311 move with the second installation shell 310 along 100 axial direction of support rod.Specifically, 311 end of support sleeve is equipped with counterbore,
First locking nut 360 is located in the counterbore of 311 end of support sleeve, so that 311 end of support sleeve can directly contradict the first peace
Fill shell 210.
Further, solar cell module bracket further includes the second locking nut 260.The lateral wall of support rod 100 is set
There is the second screw thread 130 with the cooperation of the second locking nut 260, the second locking nut 260 is set on support rod 100.Second lock
Tight nut 260 is moved for limiting the first installation shell 210 along support rod 100.
Further, third bushing 213 is equipped at the first shaft hole of the first installation shell 210.Third bushing 213 is located at the
The top of the top surface of one installation shell 210.Second locking nut 260 is located in third bushing 213, and with third bushing 213
Inner sidewall is equipped with gap.In this way, the first spring is set in outside third bushing 213 when the first elastic component 250 is the first spring,
The second locking nut 260 will not be touched;In addition, when the first installation shell 210 rotates, since the second locking nut 260 will not
Welding resistance third bushing 213 rotates, so that the first installation 210 rotating effect of shell is preferable.
In one embodiment, solar cell module bracket further include along support rod 100 axial direction from up to
Under be sequentially sleeved at first bearing 270 and second bearing outside support rod 100.First bearing 270 and second bearing are respectively positioned on the
In one axis hole, and first bearing 270 and second bearing are located at two sides of the bottom plate 215 of the first installation shell 210.The
Two locking nuts 260, which are contradicted with first bearing 270 backwards to the end face of second bearing, to be cooperated.It is logical that 311 end of support sleeve passes through second
Hole is contradicted with the first installation shell 210, second bearing backwards to the end face of first bearing 270 respectively after extending into actuating sleeve 211
Cooperation.In this way, the first installation shell 210 is set in outside support rod 100 by first bearing 270, second bearing, it can be preferably
It is rotated on support rod 100.In addition, position of the first installation shell 210 on 100 axial direction of support rod passes through the second locking
Nut 260 is limited with 311 end of support sleeve.
In one embodiment, it is set on side of the first solution lock shell 220 towards the first installation shell 210 around first through hole
There is the first groove 222, the end of the first elastic component 250 is contained in the first groove 222.Specifically, the first elastic component 250 is the
One spring, the first spring are contained in the first groove 222, and the first groove 222 plays certain position-limiting action to the first spring.
In one embodiment, it is set on side of the second solution lock shell 320 towards the second installation shell 310 around the second through-hole
There is the second groove 325, second installs on side of the shell 310 towards the second solution lock shell 320 around the second axis hole 326 equipped with third
Groove 312.One end of second elastic component 350 is contained in the second groove 325, and the other end of the second elastic component 350 is contained in
In three grooves 312.Specifically, the second elastic component 350 is second spring, and the second groove 325 is installed at the both ends of second spring respectively
In third groove 312, so that the second groove 325 plays certain position-limiting action to second spring with third groove 312, in addition,
When the second battery component mounting plate 330, which is in, folds collapsed state, the second solution lock shell 320 and the second installation 310 phase of shell
Contact, after the compression of the second elastic component 350 in the second groove 325 and third groove 312.
In one embodiment, finite place piece 140 is set on support rod 100.Locating part 140 and the first solution lock shell 220
Top surface contradict cooperation.Specifically, locating part 140 is the limited screw that 100 top of support rod is arranged in.In this way, locating part 140
It can be avoided the first solution lock shell 220 and moved up along support rod 100 and detach support rod 100.
In one embodiment, the first support 231, the first solution lock shell are provided on the first battery component mounting plate 230
The second support 223 is provided on 220.240 one end of first connecting rod is rotatably connected with the first support 231, and first connecting rod 240 is another
End is rotatably connected with the second support 223.In addition, the second battery component mounting plate 330 is similar to the first battery component mounting plate
230 design method is rotatably connected by second connecting rod 340 and the second solution lock shell 320.
In one embodiment, the side of the first installation shell 210 is equipped with axle sleeve 214, the first battery component mounting plate 230
End be provided with shaft 232, shaft 232 is rotationally installed in axle sleeve 214.More specifically, the first battery component is installed
The end of plate 230 is provided with the shaft set 233 of connection corresponding with axle sleeve 214, fixed to insert after shaft set 233 is aligned with axle sleeve 214
Enter shaft 232 can be realized the first battery component mounting plate 230 end and first installation shell 210 be connected.In addition, the second electricity
The design method that pond unit installing board 330 is similar to the first battery component mounting plate 230 is rotatably arranged in the second mounting shell
On body 310.
In one embodiment, a kind of device of solar generating, the solar cell module including any of the above-described embodiment
Bracket and solar cell module, solar cell module are installed on the first battery component mounting plate.
Above-mentioned device of solar generating, due to including solar cell module bracket, technical effect is by solar battery
Assembly support is brought, identical as the technical effect of solar cell module bracket, without repeating.
Each technical characteristic of above embodiments can be combined arbitrarily, for simplicity of description, not to above-described embodiment
In each technical characteristic it is all possible combination be all described, as long as however, the combination of these technical characteristics be not present lance
Shield all should be considered as described in this specification.
Only several embodiments of the present invention are expressed for above embodiments, and the description thereof is more specific and detailed, but can not
Therefore it is construed as limiting the scope of the patent.It should be pointed out that for those of ordinary skill in the art,
Under the premise of not departing from present inventive concept, various modifications and improvements can be made, and these are all within the scope of protection of the present invention.
Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.