CN207994982U - A kind of cable-stayed type flexible photovoltaic carrier unit and photovoltaic bracket - Google Patents
A kind of cable-stayed type flexible photovoltaic carrier unit and photovoltaic bracket Download PDFInfo
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- CN207994982U CN207994982U CN201820420123.4U CN201820420123U CN207994982U CN 207994982 U CN207994982 U CN 207994982U CN 201820420123 U CN201820420123 U CN 201820420123U CN 207994982 U CN207994982 U CN 207994982U
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- cable
- crossbeam
- main oblique
- steadying line
- column
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/47—Mountings or tracking
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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Abstract
The utility model discloses a kind of cable-stayed type flexible photovoltaic carrier unit and photovoltaic brackets, carrier unit includes two columns being oppositely arranged, steadying line and the main oblique cords of Duo Gen are provided between two columns, the both ends of wherein steadying line are connected to the lower part of corresponding end column;All main oblique cords are divided into two groups, every group includes at least a main oblique cord, and the upper end of every group of all main oblique cords and the column top of corresponding end connect, and the lower end of two groups of main oblique cords is connect with crossbeam, and tie point is evenly arranged along crossbeam length direction, crossbeam is horizontally disposed;Vertical spaced set has multiple hoist cables, the upper end of all hoist cables to be connect with crossbeam between crossbeam and steadying line, and the lower end of all hoist cables is connect with steadying line.By using the self-balance prestress guy system of optimization, the vertical rigidity for improving structure solves the vibration problem under wind action, to significantly improve the span ability of photovoltaic bracket, it is further reduced floor space, has stronger adaptability for region with a varied topography.
Description
Technical field
The utility model discloses a kind of cable-stayed type flexible photovoltaic carrier unit and photovoltaic brackets, are related to application of solar energy skill
Art field.
Background technology
In recent years, to adapt to special erection environment, flexible photovoltaic holder is more and more favored, however existing suspension cable is soft
Property photovoltaic bracket configuration and structure systems in terms of exist it is apparent insufficient:Photovoltaic module is directly connected to construction again with flexible cable
Miscellaneous, installation is inconvenient, and connection is unreliable;Be susceptible to vibration under wind action, cause component subfissure, at the same with holder across
Degree increase, need bigger pretension provide rigidity, and pretension cross senior general cause it is more demanding to boundary, cost increase sharply.Cause
How this quickly and efficiently builds large span flexible photovoltaic holder in the wild, and the supporting structure for forming large span photovoltaic module is one
It is a to meet actual demand and key technical problem urgently to be resolved hurrily.
Utility model content
The utility model is to solve deficiency existing for existing flexible photovoltaic framework construction and structural system aspect, and propose
A kind of cable-stayed type flexible photovoltaic holder, it is excellent which has that spatial extent is big, rigidity is big, convenient for disassembly and assembly, structural stability is strong etc.
Point.The structure is suitable for various complicated landforms, can build the photovoltaic supporting system of large span within a short period of time.
The utility model is achieved through the following technical solutions:
A kind of cable-stayed type flexible photovoltaic carrier unit, including two columns being oppositely arranged are provided between two columns
Steadying line and the main oblique cords of Duo Gen, the both ends of wherein steadying line are connected to the lower part of corresponding end column;
All main oblique cords are divided into two groups, and every group includes at least a main oblique cord, the upper end of every group of all main oblique cords
It is connect with the column top of corresponding end, the lower end of two groups of main oblique cords is connect with crossbeam, and tie point is equal along crossbeam length direction
Even arrangement, crossbeam is horizontally disposed, and two groups of main oblique cords are symmetrical arranged about the perpendicular bisector of crossbeam;
Vertical spaced set has multiple hoist cables, upper end and the crossbeam of all hoist cables to connect between the crossbeam and steadying line
It connects, the lower end of all hoist cables is connect with steadying line, and steadying line is domed.
The steadying line is constructed after in main oblique cord, crossbeam and hoist cable, installation is complete, and applies certain pretension so that whole
There is body structure certain rigidity photovoltaic module can be prevented in wind to bear the effect of external load, and since vertical rigidity is higher
Vibration under load action.The larger component or rigid frame of lateral rigidity may be used in column, or even resists master tiltedly using suspension cable
The horizontal force that rope and steadying line generate.
Preferably, the top of the column is connected with upper end otic placode, the upper ends of every group of all main oblique cords is fixed on pair
It answers on the upper end otic placode of the column of side;The lower part of column is connected with lower end otic placode, and the both ends of steadying line are individually fixed in respective side
On the lower end otic placode of column.
Preferably, the main oblique cord, steadying line and hoist cable are flexible cable, using steel tendon, steel strand wires, steel wire
One or more combinations in rope, reinforcing pull rod, hanging belt.From heavy and light, intensity is high, has preferable antiseptic property, can be effective
The dead weight for reducing structure, is convenient to the dismounting and transport of structure.It is lighter due to conducting oneself with dignity, it is easy for construction, no support lift can be used
Construction method.
Preferably, the setting of the junction of each hoist cable and steadying line is there are two the clamping plate of trough of belt, steadying line is located at
In groove between two clamping plates, two clamping plates are fastened by bolts and are integrated;The upper end of clamping plate offers through-hole, each hoist cable
Lower end pass through reverse reflex after corresponding through-hole, and fixed by least three wire line hitch;
The upper end of the hoist cable is set around on a sleeve, around the free end after sleeve at least through three wire line hitch
It is fixed;The lower end of the main oblique cord is also set around on a sleeve, around the free end after sleeve at least through three steel wire ropes
Button is fixed;The crossbeam is oppositely arranged by two unequal angles and is formed, and multiple bolts hole are offered on angle steel, and sleeve is located at phase
Between bolt hole between the angle steel of setting, and sleeve diameter size is matched with bolt hole, is arranged with sleeve in bolt hole
Screw rod, nut, two Bolted angle connections are integral, and the main oblique cord other end is fixed on crossbeam.
A kind of cable-stayed type flexible photovoltaic holder, including multiple cable-stayed type flexible photovoltaic carrier units, multiple cable-stayed types are flexible
Photovoltaic bracket unit is connected by purlin;Each cable-stayed type flexible photovoltaic carrier unit includes two columns being oppositely arranged, and two
Steadying line and the main oblique cords of Duo Gen are provided between a column, the both ends of wherein steadying line are connected under corresponding end column
Portion;
All main oblique cords are divided into two groups, and every group includes at least a main oblique cord, the upper end of every group of all main oblique cords
It is connect with the column top of corresponding end, the lower end of two groups of main oblique cords is connect with crossbeam, and tie point is equal along crossbeam length direction
Even arrangement, crossbeam is horizontally disposed, and two groups of main oblique cords are symmetrical arranged about the perpendicular bisector of crossbeam;
Vertical spaced set has multiple hoist cables, upper end and the crossbeam of all hoist cables to connect between the crossbeam and steadying line
It connects, the lower end of all hoist cables is connect with steadying line, and steadying line is domed.
The main oblique cord is main primary structure member, and by main oblique cord support crossbeam, the purlin of fixed photovoltaic module is placed on crossbeam
Item realizes supporting role.The main oblique cord and rope end setting length adjustment device (such as flower basket bolt) realize that crossbeam is horizontal
The adjustment of angle, to adapt to the variation of lighting angle.Aluminium alloy or thin-wall steel components can be used in the crossbeam, are connected by bolt
It connects and realizes quick assemblingization construction.The steadying line is constructed after in main oblique cord, crossbeam and hoist cable, installation is complete, and applies pre-
Power so that overall structure has certain rigidity, to bear external load effect, and since vertical rigidity is higher, can prevent photovoltaic
Vibration of the component under wind action.The column can use detached column or rigid frame, span larger according to pretension size
And it is conditional in the case of can also add suspension cable improve lateral rigidity.The oblique pull supporting structure is planar structure, is passed through
Then the arrangement of certain forms, such as arranged side by side or radial circular pattern arrangement arrange purlin to fix photovoltaic module reality on crossbeam
Existing array arrangement.The cable-stayed type flexible photovoltaic bracket stable rope can be combined to form integrated apparatus with other temporary structures, example
Large span temporary space structure is may make up as steadying line is connect with building film material, top can be into while providing indoor activity place
Row photovoltaic generation realizes clean energy resource;When being arranged in treatment tank overhead, steadying line is connect with deodorization cover film, becomes anti-
The supporting structure of smelly cover film;Steadying line is connect with plastic film, is combined with green house of vegetables structure, realizes that agriculture light is complementary.
Since component uses assembling, by tensioning steadying line when construction, pretension, this practicality are established in total
It is novel quick-assembling to shape at the scene;Larger rigidity and span can be provided after structure formation;Structure total quality is lighter,
It is readily transported and stores, can realize that multiple repeated disassembled and assembled uses;By the adjusting of main oblique cord and hoist cable, may be implemented to illumination
The real-time tracking of angle improves generating efficiency;The utility model photovoltaic bracket can be combined with other temporary structures, be realized a variety of
Function has stronger practical significance.
Preferably, aluminium alloy or thin-wall steel components can be used in the crossbeam, realization quick assembling is bolted
Change construction.
Preferably, the top of the column is connected with upper end otic placode, the upper ends of every group of all main oblique cords is fixed on pair
It answers on the upper end otic placode of the column of side;The lower part of column is connected with lower end otic placode, and the both ends of steadying line are individually fixed in respective side
On the lower end otic placode of column, convenient for it is quick, firmly main oblique cord, steadying line and column be attached, convenient for disassembly and assembly, operation letter
It is single.
Preferably, the main oblique cord, steadying line and hoist cable are flexible cable, using steel tendon, steel strand wires, steel wire
One or more combinations in rope, reinforcing pull rod, hanging belt.Flexible cable from heavy and light, intensity is high, has preferable antiseptic property,
The dead weight that structure can be effectively reduced is convenient to the dismounting and transport of structure.It is lighter due to conducting oneself with dignity, it is easy for construction, nothing can be used
The construction method of support lift.
Preferably, the setting of the junction of each hoist cable and steadying line is there are two the clamping plate of trough of belt, steadying line is located at
In groove between two clamping plates, two clamping plates are fastened by bolts and are integrated;The upper end of clamping plate offers through-hole, each hoist cable
Lower end pass through reverse reflex after corresponding through-hole, and fixed by least three wire line hitch.
The upper end of the hoist cable is set around on a sleeve, around the free end after sleeve at least through three wire line hitch
It is fixed;The lower end of the main oblique cord is also set around on a sleeve, around the free end after sleeve at least through three steel wire ropes
Button is fixed, and bonding strength is improved, and falling off after preventing suspension cable from bearing a heavy burden prevents end from surprisingly falling off;In addition, main oblique cord and hoist cable can
Connection length regulating device (such as flower basket bolt) adjusts crossbeam horizontal sextant angle, arranges photovoltaic module as needed in real time, obtain compared with
Good illumination incidence angle, it is adaptable.
The crossbeam is oppositely arranged by two unequal angles and is formed, and multiple bolts hole are offered on angle steel, and sleeve is located at
Between bolt hole between the angle steel being oppositely arranged, and sleeve diameter size is matched with bolt hole, is set with sleeve in bolt hole
Screw rod, nut are set, two Bolted angle connections are integral, and the main oblique cord other end is fixed on crossbeam.Crossbeam is L-type angle steel,
Not only intensity is high, improves overall structure stability, additionally facilitates fixed main oblique cord, hoist cable.
Preferably, the purlin is groove profile crimping light-gauge steel section, web position opens slotted hole, with the bolt hole on crossbeam
It is bolted.Using groove profile crimping light-gauge steel section as purlin intensity height, stable structure.Be bolted it is convenient for disassembly and assembly and
It is firm to connect.
Preferably, further include the suspension cable being arranged in cable-stayed type flexible photovoltaic carrier unit both sides, the suspension cable
Upper end is fixed on column, on the basis of suspension cable is fixed in the lower end of suspension cable by built-in fitting, passes through and suspension cable is arranged, improve
Column rigidity.
The technical program has the advantages that:
(1) the novel cable-stayed type flexible photovoltaic holder of the utility model, it is effectively save using drag-line as main stress component
Steel.Using prefabricated assembled system, realizes fast assembling-disassembling, efficiently construction, can recycle, is environmentally protective;
(2) construction features that drag-line is connect with adjustable-crossbeam can arrange photovoltaic module as needed, obtain preferable light
It is shining into firing angle;
(3) by using the prestressed cable system of optimization, the vertical rigidity of structure is improved, solves wind action
Under vibration problem floor space is further reduced, for varied topography area to significantly improve the span ability of photovoltaic bracket
There are stronger adaptability, such as pond, hilly country in domain;
(4) it can be combined, be formed with structures such as the deodorization cover film for the treatment of tank, agricultural greenhouse, Coal Yard closings
Integrated apparatus, effectively save resource, reduces cost, has stronger practical significance.
Description of the drawings
Fig. 1 is cable-stayed type flexible photovoltaic holder elevational schematic view.
Fig. 2 is cable-stayed type flexible photovoltaic support array schematic three dimensional views.
Fig. 3 is boundary reinforcement structure schematic diagram.
Fig. 4 is hoist cable and steadying line connecting node schematic diagram.
Fig. 5 is crossbeam, purlin, hoist cable, main oblique cord connecting node schematic diagram.
Fig. 6 is crossbeam and hoist cable assembling schematic diagram.
Fig. 7 is crossbeam and purlin assembling schematic diagram.
Fig. 8 is column and drag-line connection diagram.
Specific implementation mode
The cable-stayed type flexible photovoltaic holder of the utility model is described further below by drawings and examples, attached drawing
With embodiment be premised on technical solutions of the utility model under implemented, provide detailed embodiment and specific operation
Process, but the scope of protection of the utility model is not limited to following embodiments.
As shown in Figure 1, a kind of cable-stayed type flexible photovoltaic holder described in the utility model, including by column 5, main oblique cord 1,
The oblique pull supporting system that crossbeam 2 forms, and the systems stabilisation that is made of hoist cable 3, steadying line 4,4 end of main oblique cord 1 and steadying line
Portion is connect with column 5.Column 5 selects I-steel, is fixed on upright post basic 6 by pre-embedded anchoring bolts.
As shown in figure 3, if 5 rigidity of column is inadequate, the fixation of suspension cable 8 can be added, suspension cable 8 is fixed on tiltedly by built-in fitting
Drag-line basis 9.
Drag-line selects the galvanized steel wire rope of different cross section specification, 1 end of main oblique cord and the upper end of the column ear according to internal force size
Plate 14 connects, and 4 end of steadying line is connect with column lower end otic placode 15.Hoist cable 3 is reliably connected with steadying line 4, node such as Fig. 4 institutes
Show.Bolt 11 tightens the clamping plate 10 of trough of belt, and steadying line 4 is clamped by frictional force;The spacing that hoist cable 3 is arranged is perpendicular with crossbeam 2
Related to rigidity, when 2 vertical rigidity of crossbeam is smaller, it is small that hoist cable is arranged spacing, on the contrary then to be arranged spacing big, can be passed through according to structure
Ji property optimizes.
1 lower end connecting cross beam 2 of main oblique cord, crossbeam 2 are made of two unequal angles, by bolt 11 and set between angle steel
13 connection of cylinder is integral, and steel wire rope is fixed after bypassing sleeve 13 by least three wire line hitch 12;According to component on Two bors d's oeuveres angle steel
Arrangement row sets purlin 7, realizes the bearing to photovoltaic module, as shown in Figure 2.
Angle steel corresponding position opens bolt hole, and for node connection type as shown in Fig. 5, Fig. 6, Fig. 7, purlin 7 is that groove profile crimping is thin
Wall-shaped steel, web position open slotted hole, are bolted with the bolt hole on crossbeam 2;Main oblique cord 1 and 3 end of hoist cable can be set
Length adjustment device such as flower basket bolt is set, the adjustment of 2 horizontal sextant angle of crossbeam is realized, to adapt to the variation of lighting angle.
As shown in figure 8,5 lower end of column is fixed in 4 end of steadying line by column lower end otic placode 15, length tune is arranged in both ends
Regulating device such as flower basket bolt, to facilitate carry out prestressed stretch-draw.After the completion of tensioning, overall structure has greater stiffness, Neng Goucheng
By horizontal and vertical load, large span supporting structure is formed.
Steadying line 4 can be combined with other temporary structures, realize that dual function, such as steadying line 4 are connect with building film material
Large span temporary space structure be may make up such as battlefield hospital, temporary tent, Coal Yard enclosed construction, it is big empty in forming chamber
Between playground while top can carry out photovoltaic generation, realize clean energy resource;When being arranged in treatment tank overhead, steadying line
4 connect with deodorization cover film, become the supporting structure of deodorization cover film;Steadying line 4 is connect with plastic film, with green house of vegetables knot
Structure combines, and realizes that agriculture light is complementary.
It is the prior art not do the part illustrated in description above, or can be realized by the prior art.
And the preferable case study on implementation that case is only the utility model is embodied described in the utility model, not it is used for limiting
The scope of the utility model.Equivalent changes and modifications made by i.e. all contents according to present utility model application the scope of the claims,
It all should be used as the technology scope of the utility model.
Claims (10)
1. a kind of cable-stayed type flexible photovoltaic carrier unit, which is characterized in that the column being oppositely arranged including two, two columns it
Between be provided with steadying line and the main oblique cords of Duo Gen, the both ends of wherein steadying line are connected to the lower part of corresponding end column;
All main oblique cords are divided into two groups, and every group includes at least a main oblique cord, the upper end of every group of all main oblique cords with it is right
The column top connection that should be held, the lower end of two groups of main oblique cords is connect with crossbeam, and tie point is along the uniform cloth of crossbeam length direction
It sets, crossbeam is horizontally disposed, and two groups of main oblique cords are symmetrical arranged about the perpendicular bisector of crossbeam;
Vertical spaced set has multiple hoist cables, the upper end of all hoist cables to be connect with crossbeam between the crossbeam and steadying line, institute
There is the lower end of hoist cable to be connect with steadying line, steadying line is domed.
2. cable-stayed type flexible photovoltaic carrier unit according to claim 1, which is characterized in that the top of the column connects
There is a upper end otic placode, on the upper end otic placode for the column that respective side is fixed in the upper ends of every group of all main oblique cords;The lower part of column connects
It is connected to lower end otic placode, the both ends of steadying line are individually fixed on the lower end otic placode of corresponding heel post.
3. cable-stayed type flexible photovoltaic carrier unit according to claim 1, which is characterized in that the main oblique cord, steadying line
It is flexible cable with hoist cable, using one or more combinations in steel tendon, steel strand wires, steel wire rope, reinforcing pull rod, hanging belt.
4. cable-stayed type flexible photovoltaic carrier unit according to claim 1, which is characterized in that each hoist cable and stabilization
The junction setting of rope is there are two the clamping plate of trough of belt, and steadying line is located in the groove between two clamping plates, and two clamping plates pass through spiral shell
Bolt is fastened as a whole;The upper end of clamping plate offers through-hole, and the lower end of each hoist cable passes through reverse reflex after corresponding through-hole, and logical
At least three wire line hitch are crossed to fix;
The lower end of the hoist cable is set around on steadying line, and the free end after winding is fixed at least through three wire line hitch, and every
There are two the clamping plate of trough of belt, steadying line is located in the groove between two clamping plates the setting of the junction of a hoist cable and steadying line, hangs
The connection of rope and steadying line is located between two clamping plates, and two clamping plates are fastened by bolts and are integrated;
The upper end of the hoist cable is set around on a sleeve, solid at least through three wire line hitch around the free end after sleeve
It is fixed;The lower end of the main oblique cord is also set around on a sleeve, around the free end after sleeve at least through three wire line hitch
It is fixed;The crossbeam is oppositely arranged by two unequal angles and is formed, and multiple bolts hole are offered on angle steel, and sleeve is located at opposite
Between bolt hole between the angle steel of setting, and sleeve diameter size is matched with bolt hole, and spiral shell is arranged in bolt hole and sleeve
Bar, nut, two Bolted angle connections are integral, and the main oblique cord other end is fixed on crossbeam.
5. a kind of cable-stayed type flexible photovoltaic holder, which is characterized in that multiple oblique including multiple cable-stayed type flexible photovoltaic carrier units
Pull-type flexible photovoltaic carrier unit is connected by purlin;Each cable-stayed type flexible photovoltaic carrier unit includes two and is oppositely arranged
Column, is provided with steadying line and the main oblique cords of Duo Gen between two columns, and it is vertical that the both ends of wherein steadying line are connected to corresponding end
The lower part of column;
All main oblique cords are divided into two groups, and every group includes at least a main oblique cord, the upper end of every group of all main oblique cords with it is right
The column top connection that should be held, the lower end of two groups of main oblique cords is connect with crossbeam, and tie point is along the uniform cloth of crossbeam length direction
It sets, crossbeam is horizontally disposed, and two groups of main oblique cords are symmetrical arranged about the perpendicular bisector of crossbeam;
Vertical spaced set has multiple hoist cables, the upper end of all hoist cables to be connect with crossbeam between the crossbeam and steadying line, institute
There is the lower end of hoist cable to be connect with steadying line, steadying line is domed.
6. cable-stayed type flexible photovoltaic holder according to claim 5, which is characterized in that the top of the column is connected with
Otic placode is held, on the upper end otic placode for the column that respective side is fixed in the upper ends of every group of all main oblique cords;The lower part of column is connected with
The both ends of lower end otic placode, steadying line are individually fixed on the lower end otic placode of corresponding heel post.
7. cable-stayed type flexible photovoltaic holder according to claim 5, which is characterized in that the main oblique cord, steadying line and hang
Suo Junwei flexible cables, using one or more combinations in steel tendon, steel strand wires, steel wire rope, reinforcing pull rod, hanging belt.
8. cable-stayed type flexible photovoltaic holder according to claim 5, which is characterized in that each hoist cable and steadying line
Junction setting is there are two the clamping plate of trough of belt, and steadying line is located in the groove between two clamping plates, and two clamping plates are tight by bolt
It is solidified as a whole;The upper end of clamping plate offers through-hole, and the lower end of each hoist cable passes through reverse reflex after corresponding through-hole, and by extremely
Few three wire line hitch are fixed;
The upper end of the hoist cable is set around on a sleeve, solid at least through three wire line hitch around the free end after sleeve
It is fixed;The lower end of the main oblique cord is also set around on a sleeve, around the free end after sleeve at least through three wire line hitch
It is fixed;The crossbeam is oppositely arranged by two unequal angles and is formed, and multiple bolts hole are offered on angle steel, and sleeve is located at opposite
Between bolt hole between the angle steel of setting, and sleeve diameter size is matched with bolt hole, and spiral shell is arranged in bolt hole and sleeve
Bar, nut, two Bolted angle connections are integral, and the main oblique cord other end is fixed on crossbeam.
9. cable-stayed type flexible photovoltaic holder according to claim 5, which is characterized in that the purlin is groove profile crimping thin-walled
Shaped steel, web position open slotted hole, are bolted with the bolt hole on crossbeam.
10. cable-stayed type flexible photovoltaic holder according to claim 5, which is characterized in that further include that setting is soft in cable-stayed type
The suspension cable of property photovoltaic bracket unit both sides, the upper end of the suspension cable are fixed on column, and the lower end of suspension cable passes through pre-buried
Part is fixed on the basis of suspension cable.
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CN201820420123.4U CN207994982U (en) | 2018-03-27 | 2018-03-27 | A kind of cable-stayed type flexible photovoltaic carrier unit and photovoltaic bracket |
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CN201820420123.4U CN207994982U (en) | 2018-03-27 | 2018-03-27 | A kind of cable-stayed type flexible photovoltaic carrier unit and photovoltaic bracket |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108400750A (en) * | 2018-03-27 | 2018-08-14 | 东南大学 | A kind of cable-stayed type flexible photovoltaic carrier unit and photovoltaic bracket |
TWI700885B (en) * | 2019-12-31 | 2020-08-01 | 宋天雄 | Suspended solar tracking system |
CN116639224A (en) * | 2023-06-25 | 2023-08-25 | 上海勘测设计研究院有限公司 | Floating type rigid photovoltaic supporting system |
-
2018
- 2018-03-27 CN CN201820420123.4U patent/CN207994982U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108400750A (en) * | 2018-03-27 | 2018-08-14 | 东南大学 | A kind of cable-stayed type flexible photovoltaic carrier unit and photovoltaic bracket |
CN108400750B (en) * | 2018-03-27 | 2023-11-07 | 东南大学 | Cable-stayed flexible photovoltaic bracket unit and photovoltaic bracket |
TWI700885B (en) * | 2019-12-31 | 2020-08-01 | 宋天雄 | Suspended solar tracking system |
CN116639224A (en) * | 2023-06-25 | 2023-08-25 | 上海勘测设计研究院有限公司 | Floating type rigid photovoltaic supporting system |
CN116639224B (en) * | 2023-06-25 | 2024-03-01 | 上海勘测设计研究院有限公司 | Floating type rigid photovoltaic supporting system |
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