CN204290842U

CN204290842U - A kind of manual twin shaft regulates photovoltaic bracket

Info

Publication number: CN204290842U
Application number: CN201420858482.XU
Authority: CN
Inventors: 田世雄
Original assignee: MEIXIAN COUNTRYSIDE NEW ENERGY TECHNOLOGY Co Ltd
Current assignee: MEIXIAN COUNTRYSIDE NEW ENERGY TECHNOLOGY Co Ltd
Priority date: 2014-12-30
Filing date: 2014-12-30
Publication date: 2015-04-22
Anticipated expiration: 2024-12-30

Abstract

A kind of manual twin shaft regulates photovoltaic bracket, there is base, described base is provided with T-shaped cross-compound arrangement, described T-shaped cross-compound arrangement is made up of the horizontal cross-compound arrangement of the vertical cross-compound arrangement and control photovoltaic panel leg inclination that control photovoltaic panel support gyrobearing, described vertical cross-compound arrangement upper end is fixedly connected with horizontal cross-compound arrangement outer circumference surface middle position, top, described horizontal cross-compound arrangement two ends is fixedly connected with photovoltaic panel support, described photovoltaic panel support is provided with photovoltaic panel, described photovoltaic panel is adsorbed with adjustment assistor, described vertical cross-compound arrangement is connected by strut adjusting device with photovoltaic panel support.The utility model adopts T-shaped twin shaft steel-tube construction, and the change along with position of sun manually carries out twin shaft adjustment to longitudinal axis steel pipe and transverse axis steel pipe makes the photovoltaic panel that support supports be in suitable inclination angle and orientation, improves photovoltaic generating system efficiency.

Description

A kind of manual twin shaft regulates photovoltaic bracket

Technical field

The utility model belongs to photovoltaic bracket technical field, is specifically related to a kind of manual twin shaft and regulates photovoltaic bracket.

Background technology

The application of new forms of energy and regenerative resource is listed in the important component part of future source of energy development strategy by current human society, and photovoltaic generation is exactly a project with very high economic benefit, social benefit and ecological benefits.Photovoltaic generation utilizes photovoltaic panel to be electric energy by sunlight light energy conversion, due to the sun skyborne change in location in the middle of a day and a year, photovoltaic panel panel will be in vertical relation with sunlight light beam as far as possible, could be electric energy by light energy conversion as much as possible, improve photovoltaic generating system efficiency, so the design of photovoltaic panel support is most important.Photovoltaic bracket common at present, for adopting the fixed bracket made by C-type steel, not only cannot flexible photovoltaic panel inclination angle and orientation make system effectiveness lower to obtain more luminous energy, and cost be higher.And the modified model support of the carried out twin shaft adjustment proposed in some open utility model patent, although the change of the sun on inclination angle and two, orientation axle can be realized, but its structure is comparatively complicated, with material cost and cost of manufacture higher, and do not regulate with reference to servicing unit, make adjustment personnel comparatively accurately promptly can not complete the adjustment in inclination angle and orientation, system effectiveness can not give full play to, and is therefore necessary to propose to improve.

Utility model content

The technical problem that the utility model solves: provide a kind of manual twin shaft to regulate photovoltaic bracket, adopt T-shaped twin shaft steel-tube construction, change along with position of sun manually carries out twin shaft adjustment to longitudinal axis steel pipe and transverse axis steel pipe makes the photovoltaic panel that support supports be in suitable inclination angle and orientation, improves photovoltaic generating system efficiency.

The technical solution adopted in the utility model: a kind of manual twin shaft regulates photovoltaic bracket, there is base, described base is provided with T-shaped cross-compound arrangement, described T-shaped cross-compound arrangement is made up of the horizontal cross-compound arrangement of the vertical cross-compound arrangement and control photovoltaic panel leg inclination that control photovoltaic panel support gyrobearing, described vertical cross-compound arrangement upper end is fixedly connected with horizontal cross-compound arrangement outer circumference surface middle position, top, described horizontal cross-compound arrangement two ends is fixedly connected with photovoltaic panel support, described photovoltaic panel support is provided with photovoltaic panel, described photovoltaic panel is adsorbed with adjustment assistor, described vertical cross-compound arrangement is connected by strut adjusting device with photovoltaic panel support.

Wherein, described vertical cross-compound arrangement comprises longitudinal axis column and longitudinal axis steel pipe, described longitudinal axis column outer circumference surface socket longitudinal axis steel pipe inner peripheral surface, the steel pipe walls of described longitudinal axis steel pipe is shaped with constant bearing top wire hole and strut fulcrum screw hole, nut I and constant bearing top wire hole coordinate and weld and screw with constant bearing jackscrew, and nut II coordinates with strut fulcrum screw hole and welds.

Described horizontal cross-compound arrangement comprises transverse axis steel pipe, round steel and pad, described round steel is parallel is located at transverse axis steel duct and two length of stretching out transverse axis steel pipe is impartial, and on the position, two that transverse axis steel pipe is stretched out in described round steel side, horizontal welding is connected to pad and the thickness of pad is greater than the wall thickness of transverse axis steel pipe respectively.

Described photovoltaic panel support comprises crossbeam, left frame, left frame and boundary frame area, described crossbeam is parallel is located at the top of round steel and transverse axis steel pipe and crossbeam is welded to connect by pad and round steel, described left frame and left frame is arranged in parallel and respectively vertical welding is in boundary frame area two ends, described crossbeam two ends are welded on left frame and left frame central authorities respectively away from 5cm ~ 10cm place, boundary frame area side.

Described strut adjusting device comprises Metallic rod, sleeve and strut fulcrum screw, described Metallic rod is located at sleeve inner and two ends are stretched out outside sleeve, described sleeve side is welded with strut fulcrum screw and screws with the nut II half on longitudinal axis steel pipe, described sleeve opposite side is shaped with strut top wire hole and coordinates with nut III outside hole and welds, described strut jackscrew and nut III screw, and described Metallic rod one end and boundary frame area center are welded to connect.

Described adjustment assistor comprises rubber suction cups and straight plastic tube, and described straight plastic tube is vertical at rubber suction cups back.

Further, described transverse axis steel pipe length is about 30cm, and longitudinal axis steel pipe length is between 50cm ~ 100cm, and the length of described round steel is about 50cm and round steel diameter is less than the interior warp of transverse axis steel pipe, through being greater than base outer diameter of steel pipes in described longitudinal axis steel pipe.

Described constant bearing top wire hole is located at distance longitudinal axis steel pipe and transverse axis steel pipe welding contact place is about in the longitudinal axis steel pipe walls of 15cm, and described strut fulcrum screw hole is located at distance longitudinal axis steel pipe and transverse axis steel pipe welding contact place is about in the longitudinal axis steel pipe walls of 40cm.

Described straight plastic tube is about 10cm and its diameter is less than 2cm.

The utility model advantage compared with prior art:

1, this support takes full advantage of matching and the steering response of steel pipe and round steel, form T-steel tubular construction, simple and compact for structure, on horizontal and vertical, obtain steering response dexterously simultaneously, and then achieve can simultaneously adjustable inclination and orientation to photovoltaic panel, improve the efficiency of photovoltaic generating system;

2, take full advantage of the matching of angle bar and photovoltaic panel frame, played it and effect is lifted to the laminating of photovoltaic panel, can effectively firm photovoltaic panel;

3, be provided with adjustment servicing unit, provide the reference point in optimum angle of incidence and orientation, accurate and effective is rapid more to make adjustment operation, has farthest played system effectiveness;

4, adopt the materials such as angle bar, steel pipe and round steel, drawing materials facilitates cost low, makes simple, has obvious convenience and cost advantage;

5, the strut fulcrum screw that screws in by half of strut, achieves the supporting role and rotatably of fulcrum dexterously.

Accompanying drawing explanation

Fig. 1 is the utility model overall structure schematic diagram;

Fig. 2 is the T-shaped cross-compound arrangement schematic diagram of the utility model;

Fig. 3 is the utility model strut adjusting device structural representation;

Fig. 4 is that the utility model regulates assistant structure schematic diagram.

Embodiment

Below in conjunction with accompanying drawing 1-4, a kind of embodiment of the present utility model is described.

A kind of manual twin shaft regulates photovoltaic bracket, there is base 1, described base 1 is provided with T-shaped cross-compound arrangement, described T-shaped cross-compound arrangement is made up of the horizontal cross-compound arrangement of the vertical cross-compound arrangement and control photovoltaic panel leg inclination that control photovoltaic panel support gyrobearing, described vertical cross-compound arrangement comprises longitudinal axis column 3 and longitudinal axis steel pipe 4, described longitudinal axis column 3 outer circumference surface socket longitudinal axis steel pipe 4 inner peripheral surface, the steel pipe walls of described longitudinal axis steel pipe 4 is shaped with constant bearing top wire hole 7 and strut fulcrum screw hole 8, nut I 20 coordinates with constant bearing top wire hole 7 and welds and screw with constant bearing jackscrew 21, nut II 22 coordinates with strut fulcrum screw hole 8 and welds, described horizontal cross-compound arrangement comprises transverse axis steel pipe 5, round steel 6 and pad 9, described round steel 6 is parallel, and to be located at the length of stretching out transverse axis steel pipe 5 in the inner and two of transverse axis steel pipe 5 impartial, on the position, two that transverse axis steel pipe 5 is stretched out in described round steel 6 side, horizontal welding is connected to pad 9 and the thickness of pad 9 is greater than the wall thickness of transverse axis steel pipe 5 respectively, and described vertical cross-compound arrangement upper end is fixedly connected with horizontal cross-compound arrangement outer circumference surface middle position.Wherein, described transverse axis steel pipe 5 length is about 30cm, and longitudinal axis steel pipe 4 length is between 50cm ~ 100cm, and the length of described round steel 6 is about 50cm and round steel 6 diameter is less than the interior warp of transverse axis steel pipe 5, through being greater than base steel pipe 3 external diameter in described longitudinal axis steel pipe 4; Described constant bearing top wire hole 7 is located at distance longitudinal axis steel pipe 4 and is about on longitudinal axis steel pipe 4 wall of 15cm with transverse axis steel pipe 5 pad place, and described strut fulcrum screw hole 8 is located at distance longitudinal axis steel pipe 4 and is about on longitudinal axis steel pipe 4 wall of 40cm with transverse axis steel pipe 5 pad place.

Top, described horizontal cross-compound arrangement two ends is fixedly connected with photovoltaic panel support, described photovoltaic panel support comprises crossbeam 10, left frame 11, left frame 12 and boundary frame area 13, described crossbeam 10 is parallel is located at the top of round steel 6 and transverse axis steel pipe 5 and crossbeam 10 is welded to connect by pad 9 and round steel 6, described left frame 11 and left frame 12 arranged in parallel and respectively vertical welding in boundary frame area 13 two ends, described crossbeam 10 two ends are welded on left frame 11 and left frame 12 central authorities respectively away from 5cm ~ 10cm place, boundary frame area 13 side, wherein, wherein, described crossbeam 10, left frame 11, the material of left frame 12 and boundary frame area 12 preferably uses angle bar, effectively can stabilize photovoltaic panel and draw materials conveniently, cost is low, make simple, the length of described each frame and crossbeam 10 is determined by selected photovoltaic panel size, described angle bar specification is determined according to photovoltaic panel quantity and weight, described photovoltaic panel support is provided with photovoltaic panel, described photovoltaic panel is adsorbed with regulate assistor and with regulates the shadow of assistor for reference point regulate twin shaft make the inclination angle of photovoltaic panel and orientation reach the best, described adjustment assistor comprises rubber suction cups 18 and straight plastic tube 19, described straight plastic tube 19 is vertical at rubber suction cups 18 back, wherein, described straight plastic tube 19 is about 10cm and its diameter is less than 2cm, described vertical cross-compound arrangement is connected by strut adjusting device with photovoltaic panel support, described strut adjusting device comprises Metallic rod 14, sleeve 15 and strut fulcrum screw 16, described Metallic rod 14 is located at sleeve 15 inside and two ends are stretched out outside sleeve 15, described sleeve 15 side is welded with strut fulcrum screw 16 and screws with the nut II 22 half on longitudinal axis steel pipe 4 has supporting role and rotatably, described sleeve 15 opposite side is shaped with strut top wire hole 17 and coordinates with nut III 23 outside hole and welds, described strut jackscrew 2 screws with nut III 23, described Metallic rod 14 one end and boundary frame area 13 center are welded to connect.

Operation principle: when position of sun changes, naturally the shadow being vertically adsorbed in the straight plastic tube 19 in photovoltaic panel will become large, start manual adjustments twin shaft support, unclamp strut jackscrew 2 and constant bearing jackscrew 21, with base steel pipe 3 for standard shaft rotates the orientation that longitudinal axis steel pipe 4 regulates photovoltaic panel, with transverse axis steel pipe 5 center line for standard shaft rotates the inclination angle that round steel 6 and upper bracket thereof regulate photovoltaic panel, observe the shadow of straight plastic tube 19 simultaneously, when the shadow of straight plastic tube 19 reaches minimum, inclination angle and the orientation of photovoltaic panel just reach optimum state, now tightening strut jackscrew 2 makes it hold out against Metallic rod 14, tightening constant bearing jackscrew 21 makes it hold out against base steel pipe 3.The utility model adopts T-steel tubular construction, and the change along with position of sun manually carries out twin shaft adjustment to longitudinal axis steel pipe and transverse axis steel pipe makes the photovoltaic panel that support supports be in suitable inclination angle and orientation, reaches and improves photovoltaic generating system efficiency.

Above-described embodiment, just preferred embodiment of the present utility model, is not used for limiting the utility model practical range, therefore all equivalence changes done with content described in the utility model claim, all should be included within the utility model right.

Claims

1. a manual twin shaft regulates photovoltaic bracket, there is base (1), it is characterized in that: described base (1) is provided with T-shaped cross-compound arrangement, described T-shaped cross-compound arrangement is made up of the horizontal cross-compound arrangement of the vertical cross-compound arrangement and control photovoltaic panel leg inclination that control photovoltaic panel support gyrobearing, described vertical cross-compound arrangement upper end is fixedly connected with horizontal cross-compound arrangement outer circumference surface middle position, top, described horizontal cross-compound arrangement two ends is fixedly connected with photovoltaic panel support, described photovoltaic panel support is provided with photovoltaic panel, described photovoltaic panel is adsorbed with adjustment assistor, described vertical cross-compound arrangement is connected by strut adjusting device with photovoltaic panel support.

2. manual twin shaft according to claim 1 regulates photovoltaic bracket, it is characterized in that: described vertical cross-compound arrangement comprises longitudinal axis column (3) and longitudinal axis steel pipe (4), described longitudinal axis column (3) outer circumference surface socket longitudinal axis steel pipe (4) inner peripheral surface, the steel pipe walls of described longitudinal axis steel pipe (4) is shaped with constant bearing top wire hole (7) and strut fulcrum screw hole (8), nut I (20) and constant bearing top wire hole (7) coordinate and weld and screw with constant bearing jackscrew (21), nut II (22) coordinates with strut fulcrum screw hole (8) and welds.

3. manual twin shaft according to claim 1 and 2 regulates photovoltaic bracket, it is characterized in that: described horizontal cross-compound arrangement comprises transverse axis steel pipe (5), round steel (6) and pad (9), described round steel (6) is parallel, and to be located at the length of stretching out transverse axis steel pipe (5) in the inner and two of transverse axis steel pipe (5) impartial, and on the position, two that transverse axis steel pipe (5) is stretched out in described round steel (6) side, horizontal welding is connected to pad (9) and the thickness of pad (9) is greater than the wall thickness of transverse axis steel pipe (5) respectively.

4. manual twin shaft according to claim 3 regulates photovoltaic bracket, it is characterized in that: described strut adjusting device comprises Metallic rod (14), sleeve (15) and strut fulcrum screw (16), described Metallic rod (14) is located at sleeve (15) inside and sleeve (15) is stretched out outward in two ends, described sleeve (15) side is welded with strut fulcrum screw (16) and partly screws with the nut II (22) on longitudinal axis steel pipe (4), described sleeve (15) opposite side is shaped with strut top wire hole (17) and coordinates with nut III (23) outside hole and welds, described strut jackscrew (2) and nut III (23) screw, described Metallic rod (14) one end and boundary frame area (13) center are welded to connect.

5. manual twin shaft according to claim 4 regulates photovoltaic bracket, it is characterized in that: described adjustment assistor comprises rubber suction cups (18) and straight plastic tube (19), described straight plastic tube (19) is vertical at rubber suction cups (18) back.

6. manual twin shaft according to claim 5 regulates photovoltaic bracket, it is characterized in that: described photovoltaic panel support comprises crossbeam (10), left frame (11), left frame (12) and boundary frame area (13), described crossbeam (10) is parallel is located at the top of round steel (6) and transverse axis steel pipe (5) and crossbeam (10) is welded to connect by pad (9) and round steel (6), described left frame (11) and left frame (12) arranged in parallel and respectively vertical welding in boundary frame area (13) two ends, described crossbeam (10) two ends are welded on left frame (11) respectively and left frame (12) is central away from 5cm ~ 10cm place, boundary frame area (13) side.

7. manual twin shaft according to claim 6 regulates photovoltaic bracket, it is characterized in that: described constant bearing top wire hole (7) is located at distance longitudinal axis steel pipe (4) and is about on longitudinal axis steel pipe (4) wall of 15cm with transverse axis steel pipe (5) pad place, and described strut fulcrum screw hole (8) is located at distance longitudinal axis steel pipe (4) and is about on longitudinal axis steel pipe (4) wall of 40cm with transverse axis steel pipe (5) pad place.

8. manual twin shaft according to claim 7 regulates photovoltaic bracket, it is characterized in that: described straight plastic tube (19) is about 10cm and its diameter is less than 2cm.