KR850002992Y1 - The supporting arm for the collecting apparatus of sun ray - Google Patents

Abstract

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Description

Support Arm for Solar Collector

Figure 1 is a schematic overall perspective view for explaining an example of a photovoltaic collection device is used the support arm according to the present invention.

2 is a schematic rear view of the solar collector shown in FIG.

3 is a view for explaining the support arm according to the present invention, Figure 3 (a) is a front view. Fig. 3 (b) and Fig. 3 (c) are side views of Fig. 3 (a) viewed from the direction of the arrow (H). Fig. 3 (e) and Fig. 3 (f) are plan views of Fig. 3 (a) as viewed in the direction of the arrow (V).

Figure 4 is a side cross-sectional view showing another embodiment of the support arm according to the present invention.

FIG. 5 is a side cross-sectional view for explaining the shape of the arc-shaped flat plate 16b shown in FIG.

* Explanation of symbols for main parts of the drawings

10: solar collector 14: the first axis of rotation (horizontal axis)

16: support arm 16a, 16'a: true plate bent in arc shape

16b, 16c, 16'c: arc-shaped flat plate 17: second axis of rotation (vertical axis)

The present invention relates to a support arm for a solar collector which is most suitable for use in a large solar collector. The technical idea of concentrating sunlight by using a lens or the like and introducing it into an optical conductor cable, and moving it to any desired place through the optical conductor cable, for example, for lighting, is well known. In order to introduce | transduce into an optical conductor cable, control is carried out such that the light receiving surface of the lens is always directed in the sun direction.

However, in order to always control the light receiving surface of the lens in the sun direction, the first rotation axis (horizontal axis) that rotates the lens in the direction of movement of the sun, that is, the north-south direction, and the second axis of rotation (vertical axis) that rotates in the east-west direction It is necessary to install the circumference | surroundings of this orthogonal 2 axis rotationally, In the photovoltaic collection apparatus proposed by this applicant, it installs a lens on the 1st rotation axis which rotates a north-south direction, and supports both ends of this rotation axis with a single support It is supported by the arm, and this support arm is supported by the 2nd rotation shaft which rotates in the east-west direction.

FIG. 1 is a schematic overall perspective view for explaining one example of a photovoltaic collecting device to which a support arm for photovoltaic collecting device according to the present invention is applied, and FIG. 2 is a schematic rear view of the photovoltaic collecting device shown in FIG. (1) is a cylindrical gas part, (2) is a dome-shaped head part which is a transparent body, and by these, it comprises the capsule 3 for solar collectors, In the use state, In the capsule 3, the solar collector 10 is housed as shown.

The photovoltaic collector 10 includes a plurality of lenses 11 for condensing sunlight (for example, 7 sheets, 19 sheets), a photovoltaic direction sensor 12 for detecting the direction of the sun, and the like. The support frame 13 which integrally protects and supports, the 1st rotating shaft (horizontal axis) 14 for rotating this support frame 13, and the 1st motor which rotates this 1st rotating shaft 14 ( 15), a support arm 16 for supporting the lenses 11 to the motor 15, and a second rotation axis (vertical axis) 17 disposed perpendicular to the first rotation axis 14, and It has a second motor 18 (see Fig. 2), etc., which rotates the second rotation shaft 17, and the sun direction sensor 12 detects the direction of the sun, and the lens detects the direction of the sun. Unshown light in which the motors 15, 18 are controlled so that the 11 always faces the sun, and the light collected at the focal denture of the lens is provided with the sunlight focused by the lens 11. Conductor Hayeoseo introduced such labels, is the passed to any desired place through the optical conductor cable.

In Fig. 2, reference numeral 19 denotes an adjusting tool for matching the light receiving end of the optical conductor cable to the focal position of the lens, and in practice, the light receiving end of the optical conductor cable is fixed to the point P of the adjusting tool 19. In this case, by adjusting the adjusting tool 19 in the X and Y directions, the male and female ends of the optical cable are made to match the focal position of the lens.

Thus, in the above-described solar collector, the load on the support arm 16 increases as the number of lenses increases, so that the vertical and horizontal strengths of the support arm 16 must be increased. Since the arm 16 is also a rotating member which is moved by the motor 18, the mass of the supporting arm is required to quickly turn the light receiving surface of the lens in the direction of the sun. The present invention has been made in view of the above circumstances, and as shown in FIG. 3, the support arm 16 is curved along an arc of a flat plate 16a and an arc of the flat plate 16a. Configured by an arc-shaped flat plate 16b or 16c, 16'c or the like symmetrically welded about the centerline 0 of this flat plate 16a along the radiation direction P of the first rotary shaft 14. will be.

In addition, in FIG. 3, FIG. 3 (a) is a front view, FIG. 3 (b), and FIG. 3 (c) is a side view which looked at the 3rd (a) view from the arrow H direction, and FIG. Fig. 3 (f) is a plan view of Fig. 3 (a) as seen from the direction of arrow V. Fig. 3 (b) and Fig. 3 (d) show an example of using an arc-shaped flat plate 16b. Fig. 3 (c) and Fig. 3 (e) show examples of using two arc flat plates 16c and 16'c, and these arc flat plates 16b or 16c and 16'c. ) Is welded to the flat plate 16a symmetrically with respect to the centerline 0-0 of the flat plate 16a curved in an arc shape and coinciding with the radiation direction P of the first rotation axis 14. Thus, according to the present invention, the vertical load applied to the first rotating shaft 14 is supported by the arc-shaped flat plates 16b, 16c, and 16'c. The vertical load strength is almost the same over time, so that the required area of the arc-shaped flat plate can be reduced.

In addition, since the arc-shaped flat plate is symmetrically installed in the radiation direction of the first rotational axis and with respect to the center line of the flat plate 16a bent in the arc, the load applied to the rotational axis of 1 can be supported while maintaining the rotational balance. In particular, as shown in Fig. 3 (c) and Fig. 3 (e), the first rotating shaft 14 is supported when the two arc-shaped flat plates 16c and 16'c are supported. The force acting in the horizontal direction can be effectively supported, and the strength with respect to the force in the horizontal direction can be strengthened by increasing the gap angle θ.

4 is a side cross-sectional view showing another embodiment of the support arm according to the present invention, wherein the flat plate 16'a bent in an arc shape is provided on the periphery of the flat plate bent in the arc shape, and between them. Is connected by the circular arc flat plates 16b, 16c, 16'c, etc. In this case, the circular arc flat plates may be only 16b or only 16c, 16'c. Will make sense.

5 is a front view showing the shapes of the arc-shaped flat plates 16b, 16c, and 16'c. The arc-shaped flat plates have a wide central portion as described above (however, the vertical length d Is approximately the same). For example, the arc R ₁ of the inner end face of the center portion and the arc R ₂ of the outer end face thereof are R ₂ > R _{1 in the} illustrated example, and the arc (R _1). ) And (R ₂ ) are eccentric, but it will be readily understood that it may be an eccentric of R ₂ = R ₁ , or a eccentric circle of R ₂ > R ₁ .

As is apparent from the above description, according to the present invention, since the arc-shaped flat plate is effectively loaded using a support arm arranged symmetrically with respect to the axis to which the load is applied, the mechanical strength in the light and vertical and horizontal directions is reduced. It is possible to provide a strong and fast response solar collector.

In addition, although some embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and the flat plate 16a and the circular plate 16b, 16c, which are bent in the arc shape, The shape of (16'c) or the like is not strictly limited to the shape shown in the above embodiment. For example, if a slight increase in mass can be allowed, the entire flat plate 16a bent by the arc-shaped yarn may be used. It may be configured with a rectangular flat plate having the same dimensions as the width of the central portion, and the width of the war-shaped flat plates 16b, 16c, 16'c, etc. may be configured to be somewhat wider or narrower than that of the illustrated example. It will be easily understood.

Claims (5)

A plurality of lenses 11 for focusing sunlight, an optical conductor cable having a light receiving end disposed at a focal position of each lens, and a first for integrally rotating the plurality of lenses 11 around a horizontal axis Rotation axis 14, a support arm 16 for supporting both ends of the first rotation axis 14 so as to be rotatable, and a vertical axis perpendicular to the support arm 16 with the first rotation axis 14. It has a second rotary shaft 17 for rotating around and controls the rotation of the two rotary shafts 14, 17 to direct the lens 11 in the direction of the sun to collect sunlight In the solar collector 10, the support arm 16, along the arc of the flat plate 16a bent in the shape of an arc, and the arc of the flat plate 16a, further radiates the radiation of the first rotating shaft 14. It is welded symmetrically about the centerline 0 of this plate 16a along the direction P, and its center part is wide. Arc-shaped plate (16b), (16c), the solar collection device for the support arm, characterized in that it is constituted by a and (16'c) which is composed of width. 2. The solar collector according to claim 1, wherein the arc-shaped flat plates 16b, 16c, and 16'c have a circular arc formed by the same or different flat centers. Support arm. The support arm according to claim 1, wherein the arc-shaped flat plates (16b), (16c), and (16'c) are circular arcs formed of concentric circles having different radii. The support arm according to any one of claims 1 to 3, wherein the central portion of the flat plate (16a) curved in an arc shape is wide. 2. The flat plate bent in the second arc shape according to claim 1, wherein the flat plate 16a bent in the second arc shape is disposed on the flat plate bent in the arc shape at predetermined intervals. A support arm for a solar collector, wherein 16'a is welded to the arc-shaped flat plates 16b, 16c, and 16'c.