CN204965199U - Sun tracking device - Google Patents

Abstract

The utility model discloses a sun tracking device, including installation box, elevating angle twin worm slewing bearing and azimuth twin worm slewing bearing the internal elevating angle transmission shaft that is provided with of install bin, elevating angle transmission shaft one end is passed the installation box and is connected the back with the slewing bearing inner circle in the elevating angle twin worm slewing bearing, is connected with high power spotlight solar PV modules simultaneously, and its other end passes the installation box to be connected with elevating angle flange, elevating angle flange and high power spotlight solar PV modules are connected, elevating angle twin worm slewing bearing's casing and installation box fixed connection, installation box lower part is passed through azimuth twin worm slewing bearing and is connected with the support post. The utility model discloses twin worm transmission structure is all adopted in elevating angle and bearing tracking, ensured life phase tracking accuracy within 0.5 degree, simultaneously twin worm slewing bearing etc. Is all integrated in a module, makes on -the -spot simple to operate swift.

Description

A kind of sun tracker

Technical field

The utility model belongs to technical field of solar utilization technique, particularly a kind of sun tracker.

Background technology

As shown in Figure 1; for traditional biaxial solar tracker structural representation; wherein Bearings tracking is realized by single worm screw pivoting support 15; elevation angle is tracked through electric pushrod 16 and realizes, and distinguishes rational height angle zero-bit and protection sensor and position angle zero-bit simultaneously and protect sensor at position angle and elevation angle appropriate location.

Above-mentioned biaxial solar tracker adopts single worm screw pivoting support at position angle, elevation angle adopts the comprehensive trace of electric pushrod realization to the sun, mainly there is following technical matters in it: 1, because the wearing and tearing in manufacturing accuracy and use procedure can produce gap, unendurable guarantee tracking accuracy, in 25 year serviceable life, keeping precision is greater than 0.5 degree, generally can only be used for flat board and low-concentration, and high power concentrator tracker requires that tracking accuracy remains on and is less than 0.5 degree; 2, because the driving of this kind of structure and sensor compare dispersion in total, must carry out unifying debugging after in-site installation, install more complicated, debug time be longer again, and it is poor to install convenience.

Utility model content

Goal of the invention of the present utility model is: for above-mentioned Problems existing, provides a kind of quick and easy for installation, and can guarantee the sun tracker of useful life period tracking accuracy within 0.5 degree.

The technical solution of the utility model is achieved in that a kind of sun tracker, it is characterized in that: comprise installation casing, elevation angle twin worm pivoting support and position angle twin worm pivoting support, elevation angle transmission shaft is provided with in described installation casing, after described elevation angle transmission shaft one end is connected with the pivoting support inner ring in elevation angle twin worm pivoting support through installation casing, be connected with high concentration solar photovoltaic module simultaneously, its other end is connected with elevation angle joint flange through installing casing, described elevation angle joint flange is connected with high concentration solar photovoltaic module, the housing of described elevation angle twin worm pivoting support is fixedly connected with installation casing, described installation lower box is connected with support post by position angle twin worm pivoting support, described elevation angle twin worm pivoting support drives high concentration solar photovoltaic module to carry out elevation angle tracking by elevation angle transmission shaft, described position angle twin worm pivoting support drives installation casing and high concentration solar photovoltaic module synchronous axial system to carry out Bearings tracking.

Sun tracker described in the utility model, the housing of position angle twin worm pivoting support described in it is fixedly connected with installation casing, and the pivoting support inner ring in the twin worm pivoting support of described position angle is connected with support post by column joint flange.

Sun tracker described in the utility model; it is provided with elevation angle zero-bit and protection sensor and position angle zero-bit and protects sensor in described installation casing; described elevation angle transmission shaft be provided with elevation angle zero-bit and protect the elevation angle of sensor corresponding matching to detect to protect point, the pivoting support inner ring in the twin worm pivoting support of described position angle be provided with position angle zero-bit and protect the position angle of sensor corresponding matching to detect to protect point.

Sun tracker described in the utility model, it is provided with terminals subgroup and line water joint on described installation casing.

The utility model elevation angle and azimuthal tracking all adopt double worm structure; it eliminates the wearing and tearing produced every day automatically; realize gapless driving; ensure that useful life period tracking accuracy is within 0.5 degree; and elevation angle and position angle twin worm pivoting support, elevation angle and azimuthal zero-bit and protection sensor and terminals subgroup etc. are all integrated in a module; make in-site installation more convenient, ensure installation quality simultaneously.

Accompanying drawing explanation

Fig. 1 is the structural representation of existing biaxial solar tracker.

Fig. 2 is structural representation of the present utility model.

Fig. 3 is front view of the present utility model.

Fig. 4 is using state schematic diagram of the present utility model.

Fig. 5 is A portion enlarged drawing in Fig. 4.

Mark in figure: 1 for installing casing; 2 is elevation angle twin worm pivoting support; 3 is position angle twin worm pivoting support; 4 is elevation angle transmission shaft; 5 is elevation angle joint flange; 6 is high concentration solar photovoltaic module, and 7 is support post, and 8 is column joint flange; 9 is elevation angle zero-bit and protection sensor; 10 is position angle zero-bit and protection sensor, and 11 protect point for elevation angle detects, and 12 is that protection point is detected at position angle; 13 is terminals subgroup; 14 is line water joint, and 15 is single worm screw pivoting support, and 16 is electric pushrod.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in detail.

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figure 2-5, a kind of sun tracker, comprise and casing 1 is installed, elevation angle twin worm pivoting support 2 and position angle twin worm pivoting support 3, elevation angle transmission shaft 4 is provided with in described installation casing 1, after described elevation angle transmission shaft 4 one end is connected with the pivoting support inner ring in elevation angle twin worm pivoting support 2 through installation casing 1, be connected with high concentration solar photovoltaic module 6 simultaneously, its other end is connected with elevation angle joint flange 5 through installing casing 1, described elevation angle joint flange 5 is connected with high concentration solar photovoltaic module 6, the housing of described elevation angle twin worm pivoting support 2 is fixedly connected with installation casing 1, described installation casing 1 bottom is connected with support post 7 by position angle twin worm pivoting support 3, the housing of described position angle twin worm pivoting support 3 is fixedly connected with installation casing 1, pivoting support inner ring in described position angle twin worm pivoting support 3 is connected with support post 7 by column joint flange 8, described elevation angle twin worm pivoting support 2 drives high concentration solar photovoltaic module 6 to carry out elevation angle tracking by elevation angle transmission shaft 4, described position angle twin worm pivoting support 3 drives installation casing 1 and high concentration solar photovoltaic module 6 synchronous axial system to carry out Bearings tracking, in elevation angle and Bearings tracking process, drive motor in elevation angle twin worm pivoting support and position angle twin worm pivoting support is all motionless relative to install bin body, so that the layout of electric wire in installation casing.The elevation angle twin worm pivoting support used in the technical program and position angle twin worm pivoting support are concrete structure disclosed in Chinese patent CN201110115731.7.

Wherein, in described installation casing 1, be provided with elevation angle zero-bit and protection sensor 9 and position angle zero-bit and protect sensor 10; described elevation angle transmission shaft 4 be provided with elevation angle zero-bit and protect the elevation angle of sensor 9 corresponding matching to detect to protect a little 11; pivoting support inner ring in described position angle twin worm pivoting support 3 be provided with position angle zero-bit and protect the position angle of sensor 10 corresponding matching to detect to protect a little 12, described installation casing 1 is provided with terminals subgroup 13 and line water joint 14.All be integrated in installation casing for the structure of elevation angle and Bearings tracking or protection in the technical program, it can carry out across-the-board regulation when plant produced, thus makes in-site installation more convenient, and can ensure installation quality preferably.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (4)

1. a sun tracker, it is characterized in that: comprise and casing (1) is installed, elevation angle twin worm pivoting support (2) and position angle twin worm pivoting support (3), elevation angle transmission shaft (4) is provided with in described installation casing (1), after described elevation angle transmission shaft (4) one end is connected with the pivoting support inner ring in elevation angle twin worm pivoting support (2) through installation casing (1), be connected with high concentration solar photovoltaic module (6) simultaneously, its other end is connected with elevation angle joint flange (5) through installing casing (1), described elevation angle joint flange (5) is connected with high concentration solar photovoltaic module (6), the housing of described elevation angle twin worm pivoting support (2) is fixedly connected with installation casing (1), described installation casing (1) bottom is connected with support post (7) by position angle twin worm pivoting support (3), described elevation angle twin worm pivoting support (2) drives high concentration solar photovoltaic module (6) to carry out elevation angle tracking by elevation angle transmission shaft (4), the drive of described position angle twin worm pivoting support (3) installs casing (1) and high concentration solar photovoltaic module (6) synchronous axial system carries out Bearings tracking.

2. sun tracker according to claim 1, it is characterized in that: the housing of described position angle twin worm pivoting support (3) is fixedly connected with installation casing (1), and the pivoting support inner ring in described position angle twin worm pivoting support (3) is connected with support post (7) by column joint flange (8).

3. sun tracker according to claim 1 and 2, it is characterized in that: in described installation casing (1), be provided with elevation angle zero-bit and protection sensor (9) and position angle zero-bit and protect sensor (10), described elevation angle transmission shaft (4) be provided with elevation angle zero-bit and protect the elevation angle of sensor (9) corresponding matching to detect to protect point (11), pivoting support inner ring in described position angle twin worm pivoting support (3) be provided with position angle zero-bit and protect the position angle of sensor (10) corresponding matching to detect to protect point (12).

4. sun tracker according to claim 3, is characterized in that: on described installation casing (1), be provided with terminals subgroup (13) and line water joint (14).