CN208461765U - A kind of photovoltaic module splicing construction - Google Patents

Abstract

The utility model provides a kind of photovoltaic module splicing construction, including splicing mounting seat, fixing seat, item, regulation pipe is fixedly mounted in felt pad, splice beam structure, the fixed mount structure of photovoltaic module, angular adjustment lead screw rod structure is adjusted, damping, buffering mounting plates structure adjusts bolt, support rod, auxiliary pole, adjusting sleeve pipe, connecting rod, rainwater diversion cover and photovoltaic panel, the cage bolt are connected to the upper surface right positions of splicing mounting seat；The felt pad is glued to the lower surface of splicing mounting seat.The setting of the utility model cable bend pipe and wire bushing is conducive to play the role of fixed photovoltaic cable, guarantees the regularity of photovoltaic module installation；Grade otic placode, rotational lead screw adjust screwed pipe, and the setting of adjusting screw bar and second level otic placode is conducive to the different adjustings for carrying out angle according to photovoltaic module, meets the needs of splicing.

Description

A kind of photovoltaic module splicing construction

Technical field

The utility model belongs to photovoltaic application technical field more particularly to a kind of photovoltaic module splicing construction.

Background technique

Tapping a new source of energy with reproducible clean energy resource is common issue that the whole world faces.In new energy, photovoltaic hair The development of electricity attracts tremendous attention.But it due to whole excessively high cost, is also failed at present well into market.Before photovoltaic power generation market Scape is boundless, and the relevant cost and installation method of photovoltaic module are a very important factors of photovoltaic system development.

Connection and fixed structure in existing photovoltaic module, are secured the assembly on crossbeam by compact heap, crossbeam with Diagonal brace connection is fastened, and then carries out angular adjustment by rotation diagonal brace.When its shortcoming has on-site assembly and debugging Between it is longer, consumptive material is more, and it is whole can not convenient, rapidly assembly and disassembly, be also not easy to realize entire electricity generation system It is mobile, also not environmentally.The existing fixed device of disclosed photovoltaic module mainly includes fixed block assembly and the crossbeam with breadths, Gu Determine block assembly to be sleeved and fixed on breadths, photovoltaic module can be fixed on crossbeam.Fixed block assembly includes bolt and is serially connected in Crossbeam briquetting, component briquetting and locking nut on the bolt, crossbeam briquetting are mounted below component briquetting, and component briquetting can Photovoltaic module press fitting is fixed on breadths, component briquetting is fixed on the two sides up and down of breadths with crossbeam briquetting, and locking nut is solid It is scheduled on component briquetting.Although this mounting means is simpler than original mounting means, spring member is easily bent card Firmly, it is easy fatigue failure, influences installation effect.And mounting structure also needs the component of additionally mounted ground connection, and structure is relatively multiple It is miscellaneous, while being not integrated with the critical functions such as angular adjustment.

China Patent Publication No. is CN207354167U, and invention and created name is a kind of mounting rack of photovoltaic module, including Fixation member, bracket component and mounting assembly；Fixation member is four rectangle cement briquettings, four rectangular cement briquettings Length direction arranges that the installation supporting point of cement briquetting and bracket component is located at cement briquetting rectangular one along the north-south direction End, guarantees under the cost of identical cement briquetting, in the load by wind, bracket component has a bigger support force Arm has relatively good wind load stability；Bracket component includes height-adjustable T-type connector.But existing photovoltaic Component splicing construction splices distance between photovoltaic module installing frame there is also the bunch function not having to photovoltaic module cable The problem of device that is unadjustable and lacking damping, buffering.

Therefore, a kind of photovoltaic module splicing construction is invented to be very necessary.

Utility model content

In order to solve the above-mentioned technical problem, the utility model provides a kind of photovoltaic module splicing construction, existing to solve Photovoltaic module splicing construction does not have the bunch function to photovoltaic module cable, and splicing distance can not between photovoltaic module installing frame The problem of adjusting and lacking the device of damping, buffering.A kind of photovoltaic module splicing construction, including splicing mounting seat, fixing seat, Item is fixedly mounted in felt pad, and regulation pipe splices beam structure, and the fixed mount structure of photovoltaic module, angular adjustment wire lever is adjusted Structure, damping, buffering mounting plates structure, adjust bolt, support rod, auxiliary pole, adjusting sleeve pipe, connecting rod, rainwater diversion cover and Photovoltaic panel, the cage bolt are connected to the upper surface right positions of splicing mounting seat；The felt pad is glued to Splice the lower surface of mounting seat；The fixed installation bolts are connected to the upper surface middle position of splicing mounting seat； The regulation pipe is threaded in the upper surface middle position that item is fixedly mounted；The splicing beam structure is mounted on support The upper surface of bar and auxiliary pole；The fixed mount structure of the adjustable photovoltaic module is fixed on the upper table of splicing beam structure Face；The angular adjustment lead screw rod structure is mounted on the upper surface leftward position of splicing mounting seat；The damping, buffering Mounting plates structure is connected with splicing beam structure and the fixed mount structure of adjustable photovoltaic module respectively；The adjusting bolt spiral shell Line is connected to the left upper portion position of regulation pipe；The support rod is threaded in the upper inside position of regulation pipe；It is described Auxiliary pole longitudinal measure in the upper surface middle position of fixing seat；The adjusting sleeve pipe is socketed in the appearance of auxiliary pole Face lower position；Described connecting rod one end is glued to the right side middle position of adjusting sleeve pipe, and the other end is glued to rainwater diversion The left side middle position of cover；The photovoltaic panel is mounted on the inside of the fixed mount structure of adjustable photovoltaic module；The splicing Beam structure includes splicing crossbeam, guide-track groove, sliding block, limited cap, cable bend pipe, wire bushing and fixing bolt, the guide rail Slot is laterally provided with the upper inside position of splicing crossbeam；The sliding block sliding is connected to the inside left position of guide-track groove； The limited cap is threaded in the left and right ends of splicing crossbeam respectively；The cable bend pipe screw is connected to splicing crossbeam Lower surface right positions；The wire bushing is glued to the lower surface leftward position of splicing crossbeam；The fixing bolt spiral shell Line is connected to middle position on the downside of the front surface of sliding block.

Preferably, the fixed mount structure of the adjustable photovoltaic module includes photovoltaic module fixed frame, the fixed support ear in bottom Plate, bottom dust cover, mounting hole, threaded hole and T-type otic placode, screw is connected to photovoltaic group to the fixed support otic placode in the bottom respectively Two up and down at left and right sides of the inside of part fixed frame；The bottom dust cover is glued to the rear table of photovoltaic module fixed frame Face；The mounting hole is provided with middle position on the inside of the front surface of the fixed support otic placode in bottom；The threaded hole is provided with T-type The front surface lower position of the vertical section of otic placode；The T-type otic placode is bolted to the following table of photovoltaic module fixed frame respectively Position at left and right sides of face.

Preferably, the angular adjustment lead screw rod structure includes support column, fixed bottom plate, level-one otic placode, rotational lead screw, Screwed pipe is adjusted, adjusting screw bar and second level otic placode, the support column longitudinal screw are connected in the upper surface of fixed bottom plate Between position；The level-one otic placode is welded on the lower right side position of support column；The rotational lead screw axis connects in level-one otic placode Rear surface right positions；The adjusting screwed pipe is threaded in the outer surface right positions of rotational lead screw；The tune The threaded one end of section wire lever is connected to the inner right side position for adjusting screwed pipe, and other end axis connects the rear surface in second level otic placode Leftward position.

Preferably, the damping, buffering mounting plates structure includes top mounting plate, hanging ring, and bumper and absorbing shock hangs spring, link, Limited block and lower part mounting bar, the lifting bolt are connected to the lower surface middle position of top mounting plate；The buffering Damping is hung spring one end and is articulated on the downside of the outer surface of hanging ring, and the other end is articulated on the upside of the outer surface of link；The limited block It is glued to the upper surface of lower part mounting bar；The link screw is connected to the upper surface middle position of lower part mounting bar.

Preferably, the intersection of the auxiliary pole and adjusting sleeve pipe is provided with adjusting screw, the adjusting screw It is threaded in the front surface middle position of adjusting sleeve pipe.

Preferably, the photovoltaic module fixed frame specifically uses the stainless steel framework of hollow.

Preferably, the photovoltaic module fixed frame and sliding block are bolted setting；The T-type otic placode and T type otic placode Between be bolted setting；The threaded hole is provided with multiple.

Preferably, the fixation bottom plate and splicing mounting seat are bolted setting.

Preferably, the photovoltaic panel is bolted to the inside of photovoltaic module fixed frame.

Preferably, the lower surface axis of the support rod and auxiliary pole respectively with splicing crossbeam connects setting.

Preferably, welding is arranged on the left of the lower surface of the second level otic placode and splicing crossbeam；The support column and spelling It connects and is threadedly coupled setting on the left of the lower surface of crossbeam；The left side of second level otic placode is arranged in the support column.

Preferably, the top mounting plate is bolted to the lower surface of T-type otic placode；The lower part is installed by bolts It is connected to the upper surface middle position of splicing crossbeam.

Preferably, bolt hole is offered respectively at left and right sides of the inside of the top mounting plate and lower part mounting bar.

Preferably, the bottom dust cover specifically uses transparent PVC plastic jacket.

Preferably, the limited block is separately positioned on the left and right sides of link.

Compared with prior art, the utility model has the following beneficial effects:

1. in the utility model, the setting of the guide-track groove and sliding block is conducive to play the role of adjusting, convenient to light Lie prostrate the splicing installation of plate.

2. in the utility model, the setting of the cable bend pipe and wire bushing is conducive to play fixed photovoltaic cable Effect guarantees the regularity of photovoltaic module installation.

3. in the utility model, the bottom dust cover specifically uses transparent PVC plastic jacket, be conducive to play dust-proof Effect, protects the safety of photovoltaic module.

4. in the utility model, the threaded hole is provided with multiple settings, be conducive to according to photovoltaic module type The distance between different adjustment photovoltaic module fixed frame and photovoltaic module fixed frame meet the needs of splicing.

5. in the utility model, the level-one otic placode, rotational lead screw adjusts screwed pipe, adjusting screw bar and second level ear The setting of plate is conducive to the different adjustings for carrying out angle according to photovoltaic module, meets the needs of splicing.

6. in the utility model, the bumper and absorbing shock hangs the setting of spring, be conducive to play the role of damping, buffering, protect Safety of the photovoltaic module when receiving external force.

7. in the utility model, the setting of the limited block is conducive to the effect of protection limit, protection splicing crossbeam Safety.

8. in the utility model, the regulation pipe adjusts the setting of bolt and support rod, be conducive to the tune for carrying out height Section, it is convenient that installation is spliced to photovoltaic module.

9. in the utility model, the setting of the rainwater diversion cover, being conducive to connect external diversion pipe can be by photovoltaic The rainwater of component is collected, and is discharged convenient for centralized collection.

10. in the utility model, the setting of the felt pad is conducive to play the role of insulation protection, prevents photovoltaic Leaky occurs in the process of running for component.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the structural schematic diagram of the splicing beam structure of the utility model.

Fig. 3 is the structural schematic diagram of the fixed mount structure of adjustable photovoltaic module of the utility model.

Fig. 4 is the structural schematic diagram of the angular adjustment lead screw rod structure of the utility model.

Fig. 5 is the structural schematic diagram of the damping, buffering mounting plates structure of the utility model.

In figure:

1, splice mounting seat；2, fixing seat；3, felt pad；4, item is fixedly mounted；5, regulation pipe；6, splice crossbeam knot Structure；61, splice crossbeam；62, guide-track groove；63, sliding block；64, limited cap；65, cable bend pipe；66, wire bushing；67, fixing bolt； 7, the fixed mount structure of photovoltaic module is adjusted；71, photovoltaic module fixed frame；72, the fixed support otic placode in bottom；73, bottom dust cover； 74, mounting hole；75, threaded hole；76, T-type otic placode；8, angular adjustment lead screw rod structure；81, support column；82, fixed bottom plate；83, Level-one otic placode；84, rotational lead screw；85, screwed pipe is adjusted；86, adjusting screw bar；87, second level otic placode；9, damping, buffering is installed Hardened structure；91, top mounting plate；92, hanging ring；93, bumper and absorbing shock hangs spring；94, link；95, limited block；96, lower part mounting bar； 10, bolt is adjusted；11, support rod；12, auxiliary pole；13, adjusting sleeve pipe；14, connecting rod；15, rainwater diversion cover；16, photovoltaic Plate.

Specific embodiment

The utility model is described further below in conjunction with attached drawing:

Embodiment:

As shown in attached drawing 1 to attached drawing 2, the utility model provides a kind of photovoltaic module splicing construction, including splicing installation bottom Item 4 is fixedly mounted in seat 1, fixing seat 2, felt pad 3, and regulation pipe 5 splices beam structure 6, and photovoltaic module fixed frame knot is adjusted Structure 7, angular adjustment lead screw rod structure 8, damping, buffering mounting plates structure 9 adjust bolt 10, support rod 11, and auxiliary pole 12 is adjusted Casing 13 is saved, connecting rod 14, rainwater diversion cover 15 and photovoltaic panel 16, the fixing seat 2 are bolted to splicing mounting seat 1 upper surface right positions will splice mounting seat 1 and be fixed on the position that photovoltaic module is installed；It turns and adjusts the adjusting of bolt 10 The height of support rod 11, and then the height of splicing crossbeam 61 is adjusted, meet the needs of splicing；The felt pad 3 is glued to spelling The lower surface for connecing mounting seat 1 is conducive to play the role of insulation protection, prevents photovoltaic module from leaking electricity in the process of running Phenomenon；The fixed installation item 4 is bolted to the upper surface middle position of splicing mounting seat 1；5 spiral shell of regulation pipe Line is connected to the upper surface middle position that item 4 is fixedly mounted；The splicing beam structure 6 is mounted on support rod 11 and auxiliary branch The upper surface of bar 12；The fixed mount structure 7 of the adjustable photovoltaic module is fixed on the upper surface of splicing beam structure 6；It is described Angular adjustment lead screw rod structure 8 be mounted on splicing mounting seat 1 upper surface leftward position；The damping, buffering mounting plate Structure 9 is connected with splicing beam structure 6 and the fixed mount structure 7 of adjustable photovoltaic module respectively；10 spiral shell of adjusting bolt Line is connected to the left upper portion position of regulation pipe 5；The support rod 11 is threaded in the upper inside position of regulation pipe 5； 12 longitudinal measure of auxiliary pole is in the upper surface middle position of fixing seat 2；The adjusting sleeve pipe 13 is socketed in auxiliary The outer surface lower position of strut 12；Described 14 one end of connecting rod is glued to the right side middle position of adjusting sleeve pipe 13, another End is glued to the left side middle position of rainwater diversion cover 15, turns the intersection setting of auxiliary pole 12 and adjusting sleeve pipe 13 Screw is adjusted, the height of adjusting sleeve pipe 13 is adjusted, and then adjust the height of rainwater diversion cover 15, rainwater diversion cover 15 is made to be located at light The lower part for lying prostrate the lowest point of component can play the role of collecting rainwater；The photovoltaic panel 16 is mounted on adjustable photovoltaic group The inside of the fixed mount structure 7 of part；The splicing beam structure 6 includes splicing crossbeam 61, guide-track groove 62, sliding block 63, limited cap 64, cable bend pipe 65, wire bushing 66 and fixing bolt 67, the guide-track groove 62 are laterally provided on the inside of splicing crossbeam 61 Side position；The sliding block 63 slides the inside left position for being connected to guide-track groove 62；The limited cap 64 is distinguished screw thread and is connected It connects in the left and right ends of splicing crossbeam 61；65 screw of cable bend pipe is connected to the lower surface right lateral position of splicing crossbeam 61 It sets；The wire bushing 66 is glued to the lower surface leftward position of splicing crossbeam 61, is conducive to the work for playing fixed photovoltaic cable With the regularity of guarantee photovoltaic module installation；The fixing bolt 67 is threaded in intermediate on the downside of the front surface of sliding block 63 Position；By on guide-track groove 62 sliding slider 63 adjust between photovoltaic module fixed frame 71 and photovoltaic module fixed frame 71 away from From, meet the needs of photovoltaic module splicing, is bolted T-type otic placode 76 and T-type otic placode 76 by threaded hole 75, completion Splicing to photovoltaic module.

As shown in Fig. 3, in above-described embodiment, specifically, the fixed mount structure 7 of the adjustable photovoltaic module includes light Lie prostrate component fixed frame 71, the fixed support otic placode 72 in bottom, bottom dust cover 73, mounting hole 74, threaded hole 75 and T-type otic placode 76, institute Screw is connected to two up and down at left and right sides of the inside of photovoltaic module fixed frame 71 to the fixed support otic placode 72 in the bottom stated respectively；Institute The bottom dust cover 73 stated is glued to the rear surface of photovoltaic module fixed frame 71；The mounting hole 74 is provided with the fixed support in bottom Middle position on the inside of the front surface of otic placode 72；The threaded hole 75 is provided with the front surface lower part of the vertical section of T-type otic placode 76 Position；The T-type otic placode 76 is bolted to position at left and right sides of the lower surface of photovoltaic module fixed frame 71 respectively；By photovoltaic Plate 16 is placed on the inside of photovoltaic module fixed frame 71, and is fixed with support otic placode 72 is fixed by bottom with bolt.

As shown in Fig. 4, in above-described embodiment, specifically, the angular adjustment lead screw rod structure 8 includes support column 81, bottom plate 82, level-one otic placode 83 are fixed, rotational lead screw 84 adjusts screwed pipe 85, adjusting screw bar 86 and second level otic placode 87, institute 81 longitudinal screw of support column stated is connected to the upper surface middle position of fixed bottom plate 82；The level-one otic placode 83 is welded on branch The lower right side position of dagger 81；84 axis of rotational lead screw connects the rear surface right positions in level-one otic placode 83；Described Adjust the outer surface right positions that screwed pipe 85 is threaded in rotational lead screw 84；The threaded one end of the adjusting screw bar 86 It is connected to the inner right side position for adjusting screwed pipe 85, other end axis connects the rear surface leftward position in second level otic placode 87；It turns It adjusts screwed pipe 85 and changes the distance between rotational lead screw 84 and adjusting screw bar 86, and then to the angle for adjusting splicing crossbeam 61 It is adjusted.

As shown in Fig. 5, in above-described embodiment, specifically, the damping, buffering mounting plates structure 9 is installed including top Plate 91, hanging ring 92, bumper and absorbing shock hang spring 93, link 94, limited block 95 and lower part mounting bar 96,92 screw of the hanging ring connection The lower surface middle position of mounting plate 91 on top；The bumper and absorbing shock is hung 93 one end of spring and is articulated under the outer surface of hanging ring 92 Side, the other end are articulated on the upside of the outer surface of link 94；The limited block 95 is glued to the upper surface of lower part mounting bar 96, has Conducive to the effect of protection limit, the safety of protection splicing crossbeam 61；94 screw of link is connected to lower part mounting bar 96 Upper surface middle position；For the safety for guaranteeing photovoltaic module, top mounting plate 91 is bolted to the following table of T-type otic placode 76 Face, while in suitable position, lower part mounting bar 96 is bolted to the upper surface of splicing crossbeam 61, then hangs up bumper and absorbing shock It hangs spring 93 and plays the role of damping, buffering.

In above-described embodiment, specifically, the intersection of the auxiliary pole 12 and adjusting sleeve pipe 13 is provided with adjusting spiral shell Nail, the adjusting screw thread are connected to the front surface middle position of adjusting sleeve pipe 13.

In above-described embodiment, specifically, the photovoltaic module fixed frame 71 specifically uses the stainless steel framework of hollow.

In above-described embodiment, specifically, the photovoltaic module fixed frame 71 and sliding block 63 are bolted setting；Described Setting is bolted between T-type otic placode 76 and T-type otic placode 76；The threaded hole 75 is provided with multiple, is conducive to according to photovoltaic The distance between the different adjustment photovoltaic module fixed frame 71 of component type and photovoltaic module fixed frame 71, meet the need of splicing It wants.

In above-described embodiment, specifically, the fixation bottom plate 82 and splicing mounting seat 1 are bolted setting.

In above-described embodiment, specifically, the photovoltaic panel 16 is bolted to the inside of photovoltaic module fixed frame 71.

In above-described embodiment, specifically, the support rod 11 and auxiliary pole 12 respectively with splicing crossbeam 61 following table Face axis connects setting.

In above-described embodiment, specifically, welding is arranged on the left of the lower surface of the second level otic placode 87 and splicing crossbeam 61； Setting is threadedly coupled on the left of the support column 81 and the lower surface of splicing crossbeam 61；The support column 81 is arranged in second level ear The left side of plate 87.

In above-described embodiment, specifically, the top mounting plate 91 is bolted to the lower surface of T-type otic placode 76；Institute The lower part mounting bar 96 stated is bolted to the upper surface middle position of splicing crossbeam 61.

In above-described embodiment, specifically, dividing at left and right sides of the inside of the top mounting plate 91 and lower part mounting bar 96 Bolt hole is not offered.

In above-described embodiment, specifically, the bottom dust cover 73 specifically uses transparent PVC plastic jacket, be conducive to To dust-proof effect, the safety of photovoltaic module is protected.

In above-described embodiment, specifically, the limited block 95 is separately positioned on the left and right sides of link 94.

Working principle

When the utility model is used, will splice mounting seat 1 first is fixed on the position that photovoltaic module is installed；Turn tune The height that bolt 10 adjusts support rod 11 is saved, and then adjusts the height of splicing crossbeam 61, meets the needs of splicing；Turn adjusting spiral shell Line pipe 85 changes the distance between rotational lead screw 84 and adjusting screw bar 86, and then adjusts to the angle for adjusting splicing crossbeam 61 Section；Photovoltaic panel 16 is placed on to the inside of photovoltaic module fixed frame 71, and is carried out with support otic placode 72 is fixed by bottom with bolt It is fixed, by guide-track groove 62 sliding slider 63 adjust between photovoltaic module fixed frame 71 and photovoltaic module fixed frame 71 away from From, meet the needs of photovoltaic module splicing, is bolted T-type otic placode 76 and T-type otic placode 76 by threaded hole 75, completion Splicing to photovoltaic module；For the safety for guaranteeing photovoltaic module, top mounting plate 91 is bolted under T-type otic placode 76 Surface, while in suitable position, lower part mounting bar 96 is bolted to the upper surface of splicing crossbeam 61, then hangs up buffering Damping hangs spring 93 and plays the role of damping, buffering；Turn the adjusting spiral shell of the intersection setting of auxiliary pole 12 and adjusting sleeve pipe 13 Nail adjusts the height of adjusting sleeve pipe 13, and then adjusts the height of rainwater diversion cover 15, and rainwater diversion cover 15 is made to be located at photovoltaic module Lowest point lower part, can play the role of collect rainwater.

Using technical solution described in the utility model or those skilled in the art in technical solutions of the utility model Under inspiration, similar technical solution is designed, and reaches above-mentioned technical effect, is the protection model for falling into the utility model It encloses.

Claims (10)

1. a kind of photovoltaic module splicing construction, which is characterized in that the photovoltaic module splicing construction includes splicing mounting seat (1), Fixing seat (2), felt pad (3) are fixedly mounted item (4), regulation pipe (5), splice beam structure (6), and it is solid that photovoltaic module is adjusted Determine mount structure (7), angular adjustment lead screw rod structure (8), damping, buffering mounting plates structure (9), adjusts bolt (10), support rod (11), auxiliary pole (12), adjusting sleeve pipe (13), connecting rod (14), rainwater diversion cover (15) and photovoltaic panel (16), described consolidates Reservation (2) is bolted to the upper surface right positions of splicing mounting seat (1)；The felt pad (3) is glued to splicing peace Fill the lower surface of pedestal (1)；The fixed installation item (4) is bolted to the upper surface interposition of splicing mounting seat (1) It sets；The regulation pipe (5) is threaded in the upper surface middle position that item (4) are fixedly mounted；The splicing beam structure (6) it is mounted on the upper surface of support rod (11) and auxiliary pole (12)；The adjustable photovoltaic module fixed mount structure (7) is solid It is scheduled on the upper surface of splicing beam structure (6)；The angular adjustment lead screw rod structure (8) is mounted on splicing mounting seat (1) Upper surface leftward position；The damping, buffering mounting plates structure (9) respectively with splicing beam structure (6) and adjustable photovoltaic Component fixed mount structure (7) is connected；The adjusting bolt (10) is threaded in the left upper portion position of regulation pipe (5)； The support rod (11) is threaded in the upper inside position of regulation pipe (5)；Described auxiliary pole (12) longitudinal measure In the upper surface middle position of fixing seat (2)；The adjusting sleeve pipe (13) is socketed in the outer surface lower part of auxiliary pole (12) Position；Described connecting rod (14) one end is glued to the right side middle position of adjusting sleeve pipe (13), and the other end is glued to rainwater and leads The left side middle position of stream cover (15)；The photovoltaic panel (16) is mounted on the interior of adjustable photovoltaic module fixed mount structure (7) Portion；The splicing beam structure (6) includes splicing crossbeam (61), guide-track groove (62), sliding block (63), limited cap (64), cable Bend pipe (65), wire bushing (66) and fixing bolt (67), the guide-track groove (62) are laterally provided with the interior of splicing crossbeam (61) Portion's upper side position；Sliding block (63) sliding is connected to the inside left position of guide-track groove (62)；The limited cap (64) It is threaded in the left and right ends of splicing crossbeam (61) respectively；Described cable bend pipe (65) screw is connected to splicing crossbeam (61) Lower surface right positions；The wire bushing (66) is glued to the lower surface leftward position of splicing crossbeam (61)；Described consolidates Determine bolt (67) and is threaded in middle position on the downside of the front surface of sliding block (63).

2. photovoltaic module splicing construction as described in claim 1, which is characterized in that the adjustable photovoltaic module fixed frame Structure (7) includes photovoltaic module fixed frame (71), fixed support otic placode (72) in bottom, bottom dust cover (73), mounting hole (74), spiral shell Pit (75) and T-type otic placode (76), screw is connected to photovoltaic module fixed frame to fixed support otic placode (72) in the bottom respectively (71) two up and down at left and right sides of inside；After the bottom dust cover (73) is glued to photovoltaic module fixed frame (71) Surface；The mounting hole (74) is provided with middle position on the inside of the front surface of fixed support otic placode (72) in bottom；The screw thread Hole (75) is provided with the front surface lower position of the vertical section of T-type otic placode (76)；The T-type otic placode (76) is bolted respectively The position at left and right sides of the lower surface of photovoltaic module fixed frame (71).

3. photovoltaic module splicing construction as described in claim 1, which is characterized in that the angular adjustment lead screw rod structure It (8) include support column (81), fixed bottom plate (82), level-one otic placode (83), rotational lead screw (84), adjusting screwed pipe (85), adjusting Wire lever (86) and second level otic placode (87), the support column (81) longitudinal screw are connected in the upper surface of fixed bottom plate (82) Between position；The level-one otic placode (83) is welded on the lower right side position of support column (81)；Described rotational lead screw (84) axis Connect the rear surface right positions in level-one otic placode (83)；The adjusting screwed pipe (85) is threaded in rotational lead screw (84) Outer surface right positions；The threaded one end of the adjusting screw bar (86) is connected to the inner right side position for adjusting screwed pipe (85) It sets, other end axis connects the rear surface leftward position in second level otic placode (87).

4. photovoltaic module splicing construction as described in claim 1, which is characterized in that the damping, buffering mounting plates structure It (9) include top mounting plate (91), hanging ring (92), bumper and absorbing shock extension spring (93), link (94), limited block (95) and lower part installation Item (96), the hanging ring (92) screw are connected to the lower surface middle position of top mounting plate (91)；The bumper and absorbing shock It hangs spring (93) one end to be articulated on the downside of the outer surface of hanging ring (92), the other end is articulated on the upside of the outer surface of link (94)；It is described Limited block (95) be glued to the upper surfaces of lower part mounting bar (96)；Described link (94) screw is connected to lower part mounting bar (96) upper surface middle position.

5. photovoltaic module splicing construction as described in claim 1, which is characterized in that the auxiliary pole (12) and adjusting The intersection of casing (13) is provided with adjusting screw, and the adjusting screw thread is connected in the front surface of adjusting sleeve pipe (13) Between position.

6. photovoltaic module splicing construction as claimed in claim 2, which is characterized in that the photovoltaic module fixed frame (71) with Sliding block (63) is bolted setting；Setting is bolted between the T-type otic placode (76) and T-type otic placode (76)；The spiral shell Pit (75) is provided with multiple.

7. photovoltaic module splicing construction as claimed in claim 3, which is characterized in that the fixation bottom plate (82) and splicing is pacified Dress pedestal (1) is bolted setting.

8. photovoltaic module splicing construction as described in claim 1, which is characterized in that the support rod (11) and auxiliary pole (12) the lower surface axis respectively with splicing crossbeam (61) connects setting.

9. photovoltaic module splicing construction as claimed in claim 3, which is characterized in that the second level otic placode (87) and splicing is horizontal Welding setting on the left of the lower surface of beam (61)；It is threadedly coupled on the left of the support column (81) and the lower surface of splicing crossbeam (61) Setting；Left side of support column (81) setting in second level otic placode (87).

10. photovoltaic module splicing construction as claimed in claim 2, which is characterized in that the bottom dust cover (73) is specific Using transparent PVC plastic jacket.