CN204906293U - Formula spotlight solar energy receiving arrangement is trailed to biax based on equatorial coordinate system - Google Patents

Abstract

The utility model discloses a formula spotlight solar energy receiving arrangement is trailed to biax based on equatorial coordinate system, including base and longitude direction U -shaped rocking arm, the protruding support inboard and the protruding support outside are equipped with latitude direction U -shaped rocking arm and equipment the main control panel respectively, be equipped with transparent focus ball between the longitude direction U -shaped rocking arm, be equipped with photovoltaic board subassembly on the longitude direction U -shaped rocking arm of transparent focus ball below, the latitude direction U -shaped rocking arm left end outside and the protruding support outside are equipped with longitude rocking arm servo motor and latitude rocking arm servo motor respectively, be connected through the rotation axis between the ring gear in the protruding support outside and the latitude direction U -shaped rocking arm, longitude direction U -shaped rocking arm right -hand member top is equipped with photosensitive sensor, the both ends inboard all is equipped with longitude direction rocking arm limit switch about latitude direction U -shaped rocking arm, be equipped with latitude direction rocking arm left side limit switch and latitude direction rocking arm right side limit switch on the protruding support of latitude direction U -shaped rocking arm below.

Description

A kind of double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates

Technical field

The utility model relates to Vehicular solar charging field, specifically, relates to a kind of double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates.

Background technology

Along with greatly developing of new forms of energy, solar power generation with environmental protection, safely, be easy to the advantages such as maintenance gradually use by people.But its transformation efficiency is low, unstable and also comparatively obvious by weak points such as region restrictions.At present, market there are some device of solar generating, but they operationally cannot carry out the adjustment of operating angle according to the change of sunlight, therefore do not reach maximization to the utilization of sunlight like this, and operationally because the problem of structure can exist motion blind area.

So, when developing a kind of use without motion blind area, can fully automatic operation, equipment life long, while can also realize the solar attachment of reliable active tracing function to sunlight, just become the problem that insider needs solution badly.

Summary of the invention

For the problem in correlation technique, the utility model proposes a kind of double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates, without motion blind area during use, and can fully automatic operation, equipment life long, while can also realize reliable active tracing function to sunlight.

For realizing above-mentioned technical purpose, the technical solution of the utility model is achieved in that

A kind of double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates, comprise base and longitudinal U-shaped rocking arm, described base is provided with protruding support, inside described protruding support and described protruding stent outer be respectively equipped with latitude direction U-shaped rocking arm and equipment master board, described longitudinal U-shaped rocking arm is located between the U-shaped rocking arm of described latitude direction, and, transparent focus ball is provided with between described longitudinal U-shaped rocking arm, described longitudinal U-shaped rocking arm below described transparent focus ball is provided with photovoltaic panel assembly, two ends, described longitudinal U-shaped rocking arm left and right are equipped with power transmission shaft, wherein, described power transmission shaft one end and described transparent focus ball are fastenedly connected, the described power transmission shaft other end is all through described latitude direction U-shaped rocking arm, outside the U-shaped rocking arm left end of described latitude direction and described protruding stent outer be respectively equipped with longitude rocking arm servomotor and latitude rocking arm servomotor, on described power transmission shaft outside the U-shaped rocking arm left end of described latitude direction and described protruding stent outer be equipped with the ring gear matched with described longitude rocking arm servomotor output and described latitude rocking arm servomotor output, the described ring gear of described protruding stent outer is connected by rotating shaft with between the U-shaped rocking arm of described latitude direction, described longitudinal U-shaped rocking arm right-hand member top is provided with light sensor, described latitude direction is equipped with longitudinal rocking arm limit switch inside two ends, U-shaped rocking arm left and right, described protruding support below the U-shaped rocking arm of described latitude direction is provided with latitude direction rocking arm left limit switch and latitude direction rocking arm right limit switch, wherein, described light sensor, described photovoltaic panel assembly, described longitude rocking arm servomotor, described latitude rocking arm servomotor, described latitude direction rocking arm left limit switch, described latitude direction rocking arm right limit switch is all connected with described equipment master board by wire with described longitudinal rocking arm limit switch.

Further, described equipment master board is connected with lithium battery by wire.

Further, between described longitude rocking arm servomotor with described latitude direction U-shaped rocking arm and described latitude rocking arm servomotor be all fixedly connected with by motor fixing frame with between described protruding support.

Further, the maximum anglec of rotation of described longitudinal U-shaped rocking arm is 180 degree.

Further, the maximum angle that described latitude direction U-shaped rocking arm rotates is 270 degree.

The beneficial effects of the utility model: by the effect of latitude direction U-shaped rocking arm, longitudinal U-shaped rocking arm and servomotor, make the described double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates operationally without motion blind area, simultaneously can also fully automatic operation, equipment life long, reliable active tracing function can be realized to sunlight by light sensor simultaneously, and then make this double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates have more wide development space.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates according to the utility model embodiment;

Fig. 2 is the vertical view of the double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates according to the utility model embodiment;

Fig. 3 is the rearview of the double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates according to the utility model embodiment;

Fig. 4 is the right view of the double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates according to the utility model embodiment;

Fig. 5 is the partial structurtes schematic diagram of the double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates according to the utility model embodiment.

In figure:

1, base; 2, longitudinal U-shaped rocking arm; 3, protruding support; 4, latitude direction U-shaped rocking arm; 5, equipment master board; 6, transparent focus ball; 7, photovoltaic panel assembly; 8, power transmission shaft; 9, longitude rocking arm servomotor; 10, latitude rocking arm servomotor; 11, ring gear; 12, rotating shaft; 13, light sensor; 14, longitudinal rocking arm limit switch; 15, latitude direction rocking arm left limit switch; 16, latitude direction rocking arm right limit switch; 17, lithium battery; 18, motor fixing frame.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, other embodiments all that those of ordinary skill in the art obtain, all belong to the scope of the utility model protection.

As Figure 1-5, a kind of double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates according to embodiment of the present utility model, comprise base 1 and longitudinal U-shaped rocking arm 2, described base 1 is provided with protruding support 3, latitude direction U-shaped Rocker arm 4 and equipment master board 5 is respectively equipped with inside described protruding support 3 and outside described protruding support 3, described longitudinal U-shaped rocking arm 2 is located between the U-shaped Rocker arm 4 of described latitude direction, and, transparent focus ball 6 is provided with between described longitudinal U-shaped rocking arm 2, described longitudinal U-shaped rocking arm 2 below described transparent focus ball 6 is provided with photovoltaic panel assembly 7, described longitudinal U-shaped rocking arm about 2 two ends are equipped with power transmission shaft 8, wherein, described power transmission shaft 8 one end and described transparent focus ball 6 are fastenedly connected, described power transmission shaft 8 other end is all through described latitude direction U-shaped Rocker arm 4, outside the U-shaped Rocker arm 4 left end of described latitude direction and be respectively equipped with longitude rocking arm servomotor 9 and latitude rocking arm servomotor 10 outside described protruding support 3, on described power transmission shaft 8 outside the U-shaped Rocker arm 4 left end of described latitude direction and be equipped with the ring gear 11 matched with described longitude rocking arm servomotor 9 output and described latitude rocking arm servomotor 10 output outside described protruding support 3, described ring gear 11 outside described protruding support 3 is connected by rotating shaft 12 with between the U-shaped Rocker arm 4 of described latitude direction, described longitudinal U-shaped rocking arm 2 right-hand member top is provided with light sensor 13, described latitude direction is equipped with longitudinal rocking arm limit switch 14 inside two ends, U-shaped Rocker arm 4 left and right, described protruding support 3 below the U-shaped Rocker arm 4 of described latitude direction is provided with latitude direction rocking arm left limit switch 15 and latitude direction rocking arm right limit switch 16, wherein, described light sensor 13, described photovoltaic panel assembly 7, described longitude rocking arm servomotor 9, described latitude rocking arm servomotor 10, described latitude direction rocking arm left limit switch 15, described latitude direction rocking arm right limit switch 16 is all connected with described equipment master board 5 by wire with described longitudinal rocking arm limit switch 14.

In one embodiment, described equipment master board 5 is connected with lithium battery 17 by wire.

In one embodiment, be all fixedly connected with by motor fixing frame 18 between described longitude rocking arm servomotor 9 with described latitude direction U-shaped Rocker arm 4 and between described latitude rocking arm servomotor 10 with described protruding support 3.

In one embodiment, the maximum anglec of rotation of described longitudinal U-shaped rocking arm 2 is 180 degree.

In one embodiment, the maximum anglec of rotation of described latitude direction U-shaped Rocker arm 4 is 270 degree.

Conveniently understand technique scheme of the present utility model, below by way of in concrete occupation mode, technique scheme of the present utility model is described in detail.

When specifically using, light produces hot spot by described transparent focus ball 6, the light situation of change of transparent focus ball 6 position described in the perception of described light sensor 13, collect light data message, described equipment master board 5 is passed to by wire, the data message obtained is analyzed in described equipment master board 5, arrange described longitude rocking arm servomotor 9 or described latitude rocking arm servomotor 10 and make the response of rotating or not rotating, described longitudinal U-shaped rocking arm 2 or described latitude direction U-shaped Rocker arm 4 is driven to rotate or do not rotate, regulate described photovoltaic panel assembly 7 position spatially on described longitudinal U-shaped rocking arm 2, the hot spot formed through described transparent focus ball 6 is allowed to drop on the center of described photovoltaic panel assembly 7 accurately, described photovoltaic panel assembly 7 receives the hot spot generation current after focusing, the electric current produced is processed by the interlock circuit module of the wire between described photovoltaic panel assembly 7 and described equipment master board 5 in described equipment master board 5, access described lithium battery 17 through wire again and carry out electric power storage, the electricity stored in described lithium battery 17 accesses described equipment master board 5 again through wire connection, via the circuit module process in described equipment master board 5, exportable stable electric current and voltage, for external equipment, the acting in conjunction of described latitude direction rocking arm left limit switch 15 and described latitude direction rocking arm right limit switch 16 makes the maximum anglec of rotation of described latitude direction U-shaped Rocker arm 4 be 270 degree, and the described longitudinal rocking arm limit switch 14 inside two ends, U-shaped Rocker arm 4 left and right, described latitude direction makes the maximum anglec of rotation of described longitudinal U-shaped rocking arm 2 be 180 degree.

In sum, by means of technique scheme of the present utility model, by the effect of latitude direction U-shaped Rocker arm 4, longitudinal U-shaped rocking arm 2 and servomotor, make the described double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates operationally without motion blind area, simultaneously can also fully automatic operation, equipment life long, reliable active tracing function can be realized to sunlight by light sensor 13 simultaneously, and then make this double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates have more wide development space.

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

Claims (5)

1. the double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates, comprise base (1) and longitudinal U-shaped rocking arm (2), described base (1) is provided with protruding support (3), it is characterized in that, described protruding support (3) inner side and described protruding support (3) outside are respectively equipped with latitude direction U-shaped rocking arm (4) and equipment master board (5), described longitudinal U-shaped rocking arm (2) is located between described latitude direction U-shaped rocking arm (4), and, transparent focus ball (6) is provided with between described longitudinal U-shaped rocking arm (2), the described longitudinal U-shaped rocking arm (2) of described transparent focus ball (6) below is provided with photovoltaic panel assembly (7), described longitudinal U-shaped rocking arm (2) two ends, left and right are equipped with power transmission shaft (8), wherein, described power transmission shaft (8) one end and described transparent focus ball (6) are fastenedly connected, described power transmission shaft (8) other end is all through described latitude direction U-shaped rocking arm (4), outside U-shaped rocking arm (4) left end of described latitude direction and described protruding support (3) outside is respectively equipped with longitude rocking arm servomotor (9) and latitude rocking arm servomotor (10), described power transmission shaft (8) outside U-shaped rocking arm (4) left end of described latitude direction above and outside described protruding support (3) is equipped with the ring gear (11) matched with described longitude rocking arm servomotor (9) output and described latitude rocking arm servomotor (10) output, the described ring gear (11) in described protruding support (3) outside is connected by rotating shaft (12) with between described latitude direction U-shaped rocking arm (4), described longitudinal U-shaped rocking arm (2) right-hand member top is provided with light sensor (13), described latitude direction is equipped with longitudinal rocking arm limit switch (14) inside U-shaped rocking arm (4) two ends, left and right, the described protruding support (3) of described latitude direction U-shaped rocking arm (4) below is provided with latitude direction rocking arm left limit switch (15) and latitude direction rocking arm right limit switch (16), wherein, described light sensor (13), described photovoltaic panel assembly (7), described longitude rocking arm servomotor (9), described latitude rocking arm servomotor (10), described latitude direction rocking arm left limit switch (15), described latitude direction rocking arm right limit switch (16) is all connected with described equipment master board (5) by wire with described longitudinal rocking arm limit switch (14).

2. the double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates according to claim 1, is characterized in that, described equipment master board (5) is connected with lithium battery (17) by wire.

3. the double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates according to claim 1, it is characterized in that, be all fixedly connected with by motor fixing frame (18) between described longitude rocking arm servomotor (9) with described latitude direction U-shaped rocking arm (4) and between described latitude rocking arm servomotor (10) with described protruding support (3).

4. the double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates according to claim 1, is characterized in that, the maximum anglec of rotation of described longitudinal U-shaped rocking arm (2) is 180 degree.

5. the double-axis tracking formula concentrating solar receiving device based on the equatorial system of coordinates according to claim 1, is characterized in that, the maximum anglec of rotation of described latitude direction U-shaped rocking arm (4) is 270 degree.