CN205545083U

CN205545083U - Rotation type photovoltaic board support frame and support frame group

Info

Publication number: CN205545083U
Application number: CN201620057887.2U
Authority: CN
Inventors: 王佩华; 王献明; 王献敏; 王正林; 史路路; 郎佳莹; 王献志; 王培刚; 王现广; 王现合; 王冰
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-01-21
Filing date: 2016-01-21
Publication date: 2016-08-31
Anticipated expiration: 2026-01-21

Abstract

The utility model discloses a rotation type photovoltaic board support frame, support frame include and the rotatory support body that with rotary regulating mechanism be connected articulated by vertical shaft and surface phase and through the support column looks articulated slope support body on articulated seat and the rotatory support body, and the crossbeam I on edge is gone up articulated the setting and is used for slope support body inclination's inclination adjustment mechanism of regulation under the slope support body, the utility model discloses can adjust the inclination and the orientation of photovoltaic board as required, economic input and human input are saved in convenient daily operation maintenance, have better economic benefits and social.

Description

Rotary photovoltaic panel bracing frame and bracing frame group

Technical field

This utility model relates to this utility model and relates to technical field of photovoltaic power generation, a kind of rotary photovoltaic panel bracing frame and bracing frame group, for supporting photovoltaic panel and to the gradient of photovoltaic panel and towards being adjusted.

Background technology

The Solar use that China is conventional at present simply provides electricity, such as solar water heater, solar energy traffic lights etc. facing one direction fixing for solar panels.When sunlight solar energy photovoltaic panel, within light offset from perpendicular ± 14 °, solar energy photovoltaic panel utilizes the efficiency comparison height of solar energy, and the solar panels electric supply installation therefore following sun rotation is higher than the fixed solar power supply apparatus efficiency of light energy utilization, and about every day is high 5 times.

Existing photovoltaic bracket is stationary structure, because of the different times, the irradiating angle of the sun is different, this fixed structure of existing photovoltaic bracket cannot make the inclination angle of photovoltaic panel change, photovoltaic panel cannot change along with the angle of the sun and forward corresponding angle to, the range of exposures of the sunlight reduced, generating efficiency is the highest, and not readily transportable and installation.Visible, fixing towards solar panels electric supply installation changed by direction of illumination and to be affected relatively big, transformation efficiency and transfer power are very limited.

Utility model content

This utility model technical issues that need to address are to provide a kind of rotary photovoltaic panel bracing frame and bracing frame group, solve problem present in existing photovoltaic panel installation process, in use can facilitate daily operation maintenance as required to the angle of inclination of photovoltaic panel with towards being adjusted.

For solving above-mentioned technical problem, this utility model be the technical scheme is that

Rotary photovoltaic panel bracing frame, what support frame as described above included being hinged with ground by vertical rotating shaft and be connected with rotation regulating mechanism rotates support body and the inclination support body being hinged by hinged seat with the support column rotated on support body, under described inclination support body on the crossbeam I on edge hinged setting in order to regulate the incidence regulating mechanism at inclination support body angle of inclination.

Further improvement is that of technical solutions of the utility model: described vertical rotating shaft is arranged on rotation support body crossbeam II and on the rotation support body of vertical rotating shaft surrounding and arranges rotary supporting wheel group.

Further improvement is that of technical solutions of the utility model: described rotary supporting wheel group include being positioned at location that is that rotate on support body crossbeam II and that match with ground positioning track support wheel and be arranged on the same circumference with the axle center of vertical rotating shaft as the center of circle and the auxiliary support wheel group that matches with ground swing-around trajectory.

Further improvement is that of technical solutions of the utility model: the quantity of described incidence regulating mechanism is one or more, including by screw block jointed shaft with tilt the screw block and cross-under adjusting screw in screw block that the crossbeam I on edge is hinged under support body, described adjusting screw is arranged and the sliding seat that adjusting screw matches and is hinged on the front column upper end being positioned on front side of rotation support body on crossbeam II.

Further improvement is that of technical solutions of the utility model: described adjusting screw cross-under direction in screw block is the most perpendicular with screw block jointed shaft, in being socketed with sliding bearing on described adjusting screw and being fixedly installed on screw block by sliding bearing and swivel head is set in the upper end of adjusting screw, described sliding seat is hinged on the side of front column by sliding seat jointed shaft and arranges axially and the most perpendicular tapped through hole of sliding seat jointed shaft on sliding seat, and described sliding seat is matched with adjusting screw by tapped through hole.

Further improvement is that of technical solutions of the utility model: described rotation regulating mechanism is to be arranged on the active driving mechanisms rotated on support body or be arranged on the passive draw-off mechanism rotating support body rear.

Further improvement is that of technical solutions of the utility model: described passive draw-off mechanism includes being separately positioned on and rotates support body left end and two groups of pulling rope groups of right-hand member and the elevator motor being connected with pulling rope group, described pulling rope group is respectively by break-in fixed pulley break-in two winding rollers being wrapped on elevator motor output shaft and to connect the pulling rope group rotating support body left end contrary with the pulling rope group connecting rotation support body right-hand member winding direction on winding roller.

Further improvement is that of technical solutions of the utility model: arrange on described ground and pulling rope group motion path is carried out spacing limited post, described limited post be arranged on the same circumference centered by vertical rotating shaft and limited post and vertically distance between rotating shaft less than tractive post and vertical distance between rotating shaft.

The invention also discloses rotary photovoltaic panel bracing frame group, specifically disclosed technical scheme is: support frame as described above group includes multiple bracing frames that a rotation regulating mechanism and side-by-side parallel are arranged and vertically rotating shaft is located along the same line, and described rotation regulating mechanism is connected with chopped-off head bracing frame and the left end of chopped-off head bracing frame and right-hand member are connected with left end and the right-hand member of secondary bracing frame and are sequentially connected to left end and the right-hand member of final stage bracing frame respectively.

Further improvement is that of technical solutions of the utility model: in support frame as described above group, left end and the right-hand member of adjacent bracing frame are connected by hauling block rope group respectively and arrange angle pulley rope group between the left end and right-hand member of final stage bracing frame.

Owing to have employed technique scheme, the technological progress that this utility model obtains is:

One of the present utility model rotary photovoltaic panel bracing frame and bracing frame group, solve problem present in existing photovoltaic panel installation process, has the advantage that it is first that the installation cost of photovoltaic panel is substantially reduced, and operation maintenance cost is greatly reduced；Next to that while ensureing structural stability and structure durability, simplify mounting structure, and then make installment work be simplified；3rd is that operation troubles is few, and operation maintenance is convenient；4th is that photovoltaic panel regulation is simple, convenient, and the artificial of needs is lacked.

This utility model, by arranging vertical rotating shaft, enables swivel mount body to rotate on the ground, by rotation regulating mechanism to rotate support body towards being adjusted.Rotation regulating mechanism of the present utility model selects active driving mechanisms or passive draw-off mechanism, it is possible to rotate support body towards the regulation carried out accurately and fast.This utility model, by the horizontal rotating shaft arranged, enables tilting rack body to rotate with support column for fulcrum, thus is adjusted the angle of inclination tilting support body.This utility model is by arranging incidence regulating mechanism, regulation accurately and fast can be carried out to the angle of inclination tilting support body, incidence regulating mechanism of the present utility model selects leading screw governor motion, the rotary motion of adjusting screw can be changed into the linear motion of sliding bottom, and then make the angle of inclination to tilting support body be adjusted.

In a word, this utility model is in use, it is possible to as required to the angle of inclination of photovoltaic panel with towards being adjusted, and facilitates daily operation maintenance, saves economic input and human input, has preferable economic benefit and social benefit.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model；

Fig. 2 is front view of the present utility model；

Fig. 3 is sectional view of the present utility model；

Fig. 4 is incidence regulating mechanism sectional view of the present utility model；

Fig. 5 is rotation regulating mechanism schematic diagram of the present utility model；

Fig. 6 is the lower view of Fig. 5 of the present utility model；

Fig. 7 is bracing frame group structural representation of the present utility model；

nullWherein，1、Rotation regulating mechanism，1-1、Pulling rope group，1-2、Hoist engine，1-3、Break-in fixed pulley，1-4、Winding roller，1-5、Limited post，2、Rotate support body，2-1、Vertically rotating shaft，2-2、Support column，2-3、Crossbeam II，2-4、Front column，2-5、Tractive post，3、Tilt support body，3-1、Hinged seat，3-2、Crossbeam I，4、Incidence regulating mechanism，4-1、Screw block，4-1-1、Screw block jointed shaft，4-1-2、Sliding bearing，4-2、Adjusting screw，4-3、Sliding seat，4-3-1、Sliding seat jointed shaft，4-4、Swivel head，5、Rotary supporting wheel group，5-1、Location supports wheel，5-2、Auxiliary support wheel group，5-3、Positioning track，5-4 swing-around trajectory，6、Hauling block rope group，7、Angle pulley rope group.

Detailed description of the invention

Below in conjunction with embodiment, this utility model is described in further details:

Rotary photovoltaic panel bracing frame of the present utility model, including rotation regulating mechanism 1, rotates support body 2, inclination support body 3 and incidence regulating mechanism 4.

Rotation support body 2 of the present utility model is rectangle structure, including crossbeam II 2-3 and longeron, rotating support body 2 to be hinged with ground by vertical rotating shaft 2-1, vertical rotating shaft 2-1 is arranged on crossbeam II 2-3 rotating support body 2, arranges rotary supporting wheel group 5 on the rotation support body 2 of vertical rotating shaft 2-1 surrounding.Arranging support column 2-2 and front column 2-4 at the upper surface rotating support body 2, support column 2-2 is arranged on crossbeam II 2-3 of the rear side rotating support body 2, and front column 2-4 is arranged on crossbeam II 2-3 of the front side rotating support body 2.

Rotary supporting wheel group 5 of the present utility model is divided into two groups, in rotary supporting wheel group 5 one group is positioned at location that is that rotate on support body 2 crossbeam II 2-3 and that match with ground positioning track 5-3 and supports wheel 5-1, location is supported wheel 5-1 and is matched with positioning track 5-3 by mechanical positioner, or location is supported wheel 5-1 and is matched with positioning track 5-3 by electromagnetic locator, when rotating support body 2 and rotating, location supports and unlocks between wheel 5-1 and positioning track 5-3, when rotate support body 2 towards after adjusting, location supports and locks between wheel 5-1 and positioning track 5-3.Auxiliary support wheel group 5-2 that is that another group in rotary supporting wheel group 5 is arranged on the same circumference with the axle center of vertical rotating shaft 2-1 as the center of circle and that match with ground swing-around trajectory 5-4, auxiliary support wheel group 5-2 is played a supporting role to rotating support body 2.The diameter of the swing-around trajectory 5-4 diameter more than positioning track 5-3.

Inclination support body 3 of the present utility model is rectangle structure, including crossbeam I 3-2 and longeron, the back side tilting support body 3 arranges hinged seat 3-1, tilt support body 3 to be hinged with the support column 2-2 rotated on support body 2 by hinged seat 3-1, tilt and on crossbeam I 3-2 on 3 times edges of support body hinged incidence regulating mechanism 4 is set, incidence regulating mechanism 4 can be manual lever, jack, it can also be leading screw governor motion, the upper end thereof of incidence regulating mechanism 4 is on crossbeam I 3-2, the lower end of incidence regulating mechanism 4 is hinged on front column 2-4, incidence regulating mechanism 4 is used for regulating inclination support body 3 angle of inclination.

nullThe quantity of incidence regulating mechanism 4 of the present utility model is one or more，Incidence regulating mechanism 4 can single regulate，Regulation can also be unified after multiple linking into an integrated entity，When incidence regulating mechanism 4 is leading screw governor motion，Incidence regulating mechanism 4 includes screw block 4-1、Adjusting screw 4-2、Sliding seat 4-3，Screw block 4-1 is hinged by screw block jointed shaft 4-1-1 and crossbeam I 3-2 tilting 3 times edges of support body，Adjusting screw 4-2 cross-under is in screw block 4-1，Sliding seat 4-3 is hinged on front column 2-4 upper end，Sliding seat 4-3 matches with adjusting screw 4-2，Adjusting screw 4-2 cross-under is in the tapped through hole of sliding seat 4-3，Adjusting screw 4-2 cross-under direction in screw block 4-1 is the most perpendicular with screw block jointed shaft 4-1-1's，Sliding bearing 4-1-2 it is socketed with on adjusting screw 4-2，Adjusting screw 4-2 is fixedly installed in screw block 4-1 by sliding bearing 4-1-2，In the upper end of adjusting screw 4-2, swivel head 4-4 is set.Sliding seat 4-3 is hinged on the side of front column 2-4 by sliding seat jointed shaft 4-3-1, sliding seat 4-3 is threaded through hole, axial and the sliding seat jointed shaft 4-3-1's of tapped through hole is the most perpendicular, and sliding seat 4-3 is matched with adjusting screw 4-2 by tapped through hole 4-3-2.

Rotation regulating mechanism 1 of the present utility model is to be arranged on the active driving mechanisms rotated on support body 2 or be arranged on the passive draw-off mechanism rotating support body 2 rear.

When rotation regulating mechanism 1 is to be arranged on the active driving mechanisms rotated on support body 2, active driving mechanisms drives auxiliary support wheel group 5-2 to move on swing-around trajectory 5-4.

When rotation regulating mechanism 1 is the passive draw-off mechanism being arranged on and rotating support body 2 rear, passive draw-off mechanism includes two groups of pulling rope groups 1-1 and elevator motor 1-2.Two groups of pulling rope groups 1-1 are separately positioned on left end and the right-hand member rotating support body 2, elevator motor 1-2 is connected with pulling rope group 1-1, pulling rope group 1-1 is passed through break-in fixed pulley 1-3 break-in respectively and is wrapped on two winding roller 1-4 on elevator motor 1-2 output shaft, and it is contrary with connecting pulling rope group 1-1 rotating support body 2 right-hand member winding direction on winding roller 1-4 to connect pulling rope group 1-1 rotating support body 2 left end.

Limited post 1-5 is set on the ground, pulling rope group 1-1 motion path can be carried out spacing by limited post 1-5, limited post 1-5 is mainly when passive draw-off mechanism works, the collapsing length making two groups of pulling rope groups 1-1 is consistent, the tightness making pulling rope group 1-1 on two winding roller 1-4 is identical, it is to avoid two groups of pulling rope groups 1-1 operationally occur unbalanced flexible.Limited post 1-5 is arranged on the same circumference centered by vertical rotating shaft 2-1, distance between limited post 1-5 and vertically rotating shaft 2-1 is less than the distance between tractive post 2-5 and vertical rotating shaft 2-1, namely the diameter of the circumference at limited post 1-5 place is less than the diameter of tractive post 2-5 motion circumference, the height of limited post 1-5 is slightly below the height of vertical rotating shaft 2-1, and the height of limited post 1-5 is higher than pulling rope group 1-1 height overhead.

This utility model is also claimed rotary photovoltaic panel bracing frame group, bracing frame group includes a rotation regulating mechanism 1 and multiple bracing frame, multiple bracing frame side-by-side parallel are arranged and vertically rotating shaft 2-1 is located along the same line, the bracing frame adjacent with rotation regulating mechanism 1 is chopped-off head bracing frame, the bracing frame farthest with the spacing of rotation regulating mechanism 1 is final stage bracing frame, between chopped-off head bracing frame and final stage bracing frame for secondary bracing frame, rotation regulating mechanism 1 is connected with chopped-off head bracing frame, the left end of chopped-off head bracing frame is connected and is sequentially connected to left end and the right-hand member of final stage bracing frame with left end and the right-hand member of secondary bracing frame with right-hand member respectively.In bracing frame group, the left end of adjacent bracing frame is connected by hauling block rope group 6 respectively with right-hand member, arranges angle pulley rope group 7 between the left end and right-hand member of final stage bracing frame.

Claims

The most rotary photovoltaic panel bracing frame, it is characterized in that: support frame as described above includes the rotation support body (2) being hinged with ground by vertical rotating shaft (2-1) and being connected with rotation regulating mechanism (1) and the inclination support body (3) being hinged by hinged seat (3-1) with the support column (2-2) rotated on support body (2), under described inclination support body (3), the upper hinged setting of the crossbeam I (3-2) on edge is in order to regulate the incidence regulating mechanism (4) at support body (3) angle of inclination.
Rotary photovoltaic panel bracing frame the most according to claim 1, it is characterised in that: described vertical rotating shaft (2-1) is arranged on rotation support body (2) crossbeam II (2-3) and above and arranges rotary supporting wheel group (5) on the rotation support body (2) of vertical rotating shaft (2-1) surrounding.
Rotary photovoltaic panel bracing frame the most according to claim 2, it is characterised in that: described rotary supporting wheel group (5) includes that being positioned at location that is that rotate on support body (2) crossbeam II (2-3) and that match with ground positioning track (5-3) supports wheel (5-1) and be arranged on auxiliary support wheel group (5-2) that is on the same circumference as the center of circle of the axle center with vertical rotating shaft (2-1) and that match with ground swing-around trajectory (5-4).
Rotary photovoltaic panel bracing frame the most according to claim 1, it is characterized in that: the quantity of described incidence regulating mechanism (4) is one or more, including the screw block (4-1) being hinged with the crossbeam I (3-2) on edge under inclination support body (3) by screw block jointed shaft (4-1-1) and cross-under adjusting screw (4-2) in screw block (4-1), described adjusting screw (4-2) is upper to be arranged that match with adjusting screw (4-2) and is hinged on the sliding seat (4-3) being positioned at front column (2-4) upper end rotated on support body (2) front side crossbeam II (2-3).
nullRotary photovoltaic panel bracing frame the most according to claim 4，It is characterized in that: the described adjusting screw (4-2) cross-under direction in screw block (4-1) is the most perpendicular with screw block jointed shaft (4-1-1)，In being socketed with sliding bearing (4-1-2) on described adjusting screw (4-2) and being fixedly installed on screw block (4-1) by sliding bearing (4-1-2) and swivel head (4-4) is set in the upper end of adjusting screw (4-2),Described sliding seat (4-3) is hinged on the side of front column (2-4) by sliding seat jointed shaft (4-3-1) and arranges axially and the most perpendicular tapped through hole of sliding seat jointed shaft (4-3-1) on sliding seat (4-3)，Described sliding seat (4-3) is matched with adjusting screw (4-2) by tapped through hole.
Rotary photovoltaic panel bracing frame the most according to claim 1, it is characterised in that: described rotation regulating mechanism (1) is to be arranged on the active driving mechanisms rotated on support body (2) or be arranged on the passive draw-off mechanism rotating support body (2) rear.
Rotary photovoltaic panel bracing frame the most according to claim 6, it is characterized in that: described passive draw-off mechanism includes being respectively hinged at and rotates support body (2) left end and two groups of pulling rope groups (1-1) on the tractive post (2-5) of right-hand member and the elevator motor (1-2) being connected with pulling rope group (1-1), described pulling rope group (1-1) is upper by (1-3) break-in of break-in fixed pulley two winding rollers (1-4) being wrapped on elevator motor (1-2) output shaft respectively and to connect the pulling rope group (1-1) rotating support body (2) left end contrary with the pulling rope group (1-1) connecting rotation support body (2) right-hand member winding direction on winding roller (1-4).
Rotary photovoltaic panel bracing frame the most according to claim 7, it is characterized in that: arrange on described ground and pulling rope group (1-1) motion path carries out spacing limited post (1-5), described limited post (1-5) is arranged on the distance on the same circumference centered by vertical rotating shaft (2-1) and between limited post (1-5) and vertical rotating shaft (2-1) less than the distance between tractive post (2-5) and vertical rotating shaft (2-1).
The most rotary photovoltaic panel bracing frame group, it is characterized in that: support frame as described above group includes multiple bracing frames that a rotation regulating mechanism (1) and side-by-side parallel are arranged and vertically rotating shaft (2-1) is located along the same line, described rotation regulating mechanism (1) is connected with chopped-off head bracing frame and the left end of chopped-off head bracing frame and right-hand member are connected with left end and the right-hand member of secondary bracing frame and are sequentially connected to left end and the right-hand member of final stage bracing frame respectively.
Rotary photovoltaic panel bracing frame group the most according to claim 9, it is characterised in that: in support frame as described above group, left end and the right-hand member of adjacent bracing frame are connected by hauling block rope group (6) and are arranged angle pulley rope group (7) between the left end and right-hand member of final stage bracing frame respectively.