CN207053449U - The overhead flat one-axis system of the underlying run-in index photovoltaic linkage of rotary reducer - Google Patents

Abstract

The utility model discloses a kind of overhead flat one-axis system of the underlying run-in index photovoltaic linkage of rotary reducer, photovoltaic module is arranged including number, it is connected between row's photovoltaic module by same gyroaxis, in addition to is located therein the main driving parallel rod device of single-revolution axle bottom, the gyroaxis parallel rod device of connection number row's photovoltaic module.Underlying by the way that most important driving element in flat one-axis system is carried out, setting height(from bottom) is 1~1.5 meter, and then reduces debugging and safeguard height；By the intensity and anti-overturning energy on basis where bottom column where independent design rotary reducer and column, to meet the stability requirement of whole system, while extra individually basis is not increased；In addition, south and north, east and west are run through in whole photovoltaic mounted array, quite convenient for the recycling of bottom space.

Description

The overhead flat one-axis system of the underlying run-in index photovoltaic linkage of rotary reducer

Technical field

The utility model belongs to photovoltaic plant solar tracking system, more particularly to a kind of underlying run-in index light of rotary reducer The overhead flat one-axis system of volt linkage.

Background technology

At present in photovoltaic plant solar tracking system, the flat single-axis tracker design height of main flow is not high, the revolution used The design attitude of reductor is mostly flat placed type, i.e., installation site is in same level height with each gyroaxis.And when such is flat single Axis tracker needs frame height to adapt to for example agriculture photovoltaic art, and more than 3 meters, this is resulted in back photovoltaic cell component setting height(from bottom) Turn reductor installation site to increase, and its larger weight can cause difficulty to installation, while be not easy to debug and safeguard.

Utility model content

It is high that technical problem to be solved in the utility model is to provide a kind of underlying run-in index photovoltaic linkage of rotary reducer The flat one-axis system of frame, can be underlying by most important driving element progress in flat one-axis system, and then reduces debugging and safeguard high Degree.

In order to solve the above-mentioned technical problem, the utility model adopts the following technical scheme that：

A kind of overhead flat one-axis system of underlying run-in index photovoltaic linkage of rotary reducer, including number row's photovoltaic module, with row It is connected between photovoltaic module by same gyroaxis, in addition to is located therein the main driving parallel rod dress of single-revolution axle bottom The gyroaxis parallel rod device of number row's photovoltaic module is put, connects,

Main driving parallel rod device including being radially fixedly arranged on the revolution linking arm of gyroaxis both sides for a pair, on a pair respectively Mutually cut with scissors lower end of the upper and lower strut, both ends that end is hinged with the outboard end of homonymy revolution linking arm respectively respectively with two upper and lower struts The revolution driving arm connect, the rotary reducer being connected with revolution driving arm；

Gyroaxis parallel rod device includes being respectively arranged on thing connecting rod and connecting rod swing arm, and thing connecting rod is in and gyroaxis water It is flat to be vertically arranged, a connecting rod swing arm is installed with each gyroaxis, connecting rod swing arm lower end is hinged with thing connecting rod respectively.

Described to be interval with several columns with row's photovoltaic module lower end, the rotary reducer is fixedly arranged under corresponding column Portion.

The column is formed by connecting by upper strata column and lower floor's column, and the rotary reducer is fixedly arranged on corresponding lower floor and stood On post.

The main driving parallel rod device includes electric cabinet, is fixedly arranged on rotary reducer on same column.

The thing connecting rod is in series by multistage to be formed.

Linked overhead flat one-axis system using the underlying run-in index photovoltaic of rotary reducer of the present utility model, by by flat list Most important driving element is carried out underlying in axle system, and setting height(from bottom) is 1~1.5 meter, and then is reduced debugging and safeguarded height；It is logical The intensity and anti-overturning energy on basis where bottom column where crossing independent design rotary reducer and column, to meet to be entirely The stability requirement of system, while do not increase extra individually basis；In addition, south and north, east and west are run through in whole photovoltaic mounted array, Quite convenient for the recycling of bottom space.

Brief description of the drawings

The utility model is described in detail with reference to the accompanying drawings and detailed description：

Fig. 1 is the structure schematic top plan view of flat one-axis system of the present utility model.

Fig. 2 is the structural upright schematic diagram of flat one-axis system of the present utility model.

Fig. 3 is the A portions enlarged diagram in Fig. 2.

Fig. 4 is the structural representation of main driving parallel rod device of the present utility model.

Fig. 5 is Fig. 4 schematic side view.

Fig. 6 is 45 ° of schematic side views of the present utility model.

Fig. 7 is the B portions enlarged diagram in Fig. 6.

Embodiment

The underlying run-in index photovoltaic of rotary reducer of the present utility model links overhead flat one-axis system as shown in figs. 1 to 6, with Prior art identical is equally also to include the row's of number photovoltaic module 1, often arranges photovoltaic module 1 and is arranged in north and south, with row's photovoltaic module It is connected between 1 by same gyroaxis 2, angular turn adjustment is carried out with row's photovoltaic module 1 to drive.Unlike the prior art It is that the flat one-axis system also includes the main driving parallel rod device for being located therein the bottom of single-revolution axle 2 and connection number row's photovoltaic The gyroaxis parallel rod device of component 1.

Incorporated by reference to shown in Fig. 3~Fig. 5, described main driving parallel rod device is radially fixedly arranged on revolution respectively including a pair Upper and lower strut 4 that the revolution linking arms 3 of the both sides of axle 2, a pair of upper ends are hinged with the outboard end of homonymy revolution linking arm 3 respectively, Revolution driving arm 5 that both ends are hinged with the lower end of two upper and lower struts 4 respectively, the rotary reducer being connected with revolution driving arm 5 6；

Please in conjunction with shown in Fig. 6~Fig. 7, described gyroaxis parallel rod device includes being respectively arranged on the He of thing connecting rod 7 Connecting rod swing arm 8, thing connecting rod 7 are in be set with the horizontal vertical of gyroaxis 2, are installed with a connecting rod swing arm 8 on each gyroaxis 2, even The lower end of bar swing arm 8 is hinged with thing connecting rod 7 respectively.

When rotary reducer 6 rotates, revolution is driven to connect by the left-right rotation of revolution driving arm 5, and by upper and lower strut 4 Connect arm 3 and then drive connected gyroaxis 2 to rotate, to drive residing row's photovoltaic module 1 accordingly to rotate, meanwhile, the revolution Axle 2, which rotates, drives the lower end of connecting rod swing arm 8 thereon to be swung, and so as to drive thing connecting rod 7 to carry out thing movement, and then drives Other synchronous huntings of connecting rod swing arm 8 flow back in rotating shaft 2, so as to drive it is other flow back to rotating shaft 2 and synchronously rotate in same direction, it is final to realize Linked from rotary reducer 6 to the traction of all gyroaxises 2 of system, all 1 synchronous rotating Vortexes of photovoltaic module.

It is described to be interval with several columns 9, the rotary reducer 6 with row's photovoltaic module 1 lower end as one embodiment It is fixedly arranged on the corresponding bottom of column 9.

As one embodiment, the column 9 is formed by connecting by upper strata column 91 and lower floor's column 92, the rotary decelerating Machine 6 is fixedly arranged on corresponding lower floor's column 92.

As one embodiment, the main driving parallel rod device also includes an electric cabinet 10, solid with rotary reducer 6 On same column, and it is located at turn around the lower section of reductor 6.

As one embodiment, the thing connecting rod 7 is in series by multistage to be formed, and can be entered according to the row of photovoltaic module 1 The corresponding increase and decrease length of row, to realize that the connection between the gyroaxis 2 of all row's photovoltaic modulies 1 is drawn.

But those of ordinary skill in the art is it should be appreciated that the embodiment of the above is intended merely to explanation originally Utility model, and being not used as to restriction of the present utility model, if in spirit of the present utility model, to Change, the modification of the upper embodiment will all fall in Claims scope of the present utility model.

Claims (5)

1. The overhead flat one-axis system 1. a kind of underlying run-in index photovoltaic of rotary reducer links, including number row's photovoltaic module, with row's light It is connected between volt component by same gyroaxis, it is characterised in that the main driving for also including being located therein single-revolution axle bottom is put down The gyroaxis parallel rod device of row linkage, connection number row's photovoltaic module,

   Main driving parallel rod device is radially fixedly arranged on the revolution linking arm of gyroaxis both sides, a pair of upper ends point respectively including a pair The upper and lower strut that is hinged of outboard end, both ends with homonymy revolution linking arm are hinged with the lower end of two upper and lower struts respectively Revolution driving arm, the rotary reducer being connected with revolution driving arm；

   Gyroaxis parallel rod device includes being respectively arranged on thing connecting rod and connecting rod swing arm, and thing connecting rod is in horizontal vertical with gyroaxis It is straight to set, a connecting rod swing arm is installed with each gyroaxis, connecting rod swing arm lower end is hinged with thing connecting rod respectively.
2. The overhead flat one-axis system 2. the underlying run-in index photovoltaic of rotary reducer according to claim 1 links, its feature exist In：Described to be interval with several columns with row's photovoltaic module lower end, the rotary reducer is fixedly arranged on corresponding column bottom.
3. The overhead flat one-axis system 3. the underlying run-in index photovoltaic of rotary reducer according to claim 2 links, its feature exist In：The column is formed by connecting by upper strata column and lower floor's column, and the rotary reducer is fixedly arranged on corresponding lower floor's column.
4. The overhead flat one-axis system 4. the underlying run-in index photovoltaic of rotary reducer according to claim 2 links, its feature exist In：The main driving parallel rod device includes electric cabinet, is fixedly arranged on rotary reducer on same column.
5. The overhead flat one-axis system 5. the underlying run-in index photovoltaic of rotary reducer according to claim 1 links, its feature exist In：The thing connecting rod is in series by multistage to be formed.