KR100915679B1 - Solar cell module assembly - Google Patents

Abstract

A sunlight module assembly is provided to easily operate to be perpendicular to the light source depending on movement of the sun because It is controlled by the driving unit and operating unit. A sunlight module assembly comprises a steel reinforcement foundation(50), a lower column(51), an upper column(52), a plurality of sunlight module assemblies(75), a driving unit(60), and an operating unit. The steel reinforcement foundation is laid under the plane ground, slope, and uneven topography at a constant interval. The lower and upper columns are perpendicularly and successively fastened on top of the steel reinforcement foundation. A plurality of sunlight module assemblies are installed on top of each upper column. The operating unit is prepared on the lower floor among a plurality of sunlight module assemblies. The operating unit operates the entire sunlight module assemblies.

Description

Solar cell module assembly

The present invention relates to a photovoltaic module assembly, and more particularly, to construct a photovoltaic module assembly with a minimum of forest damage, thereby providing an environmentally friendly construction method and structurally solidifying the assembly. It simply improves the product production and constructability, which greatly improves the quality and reliability of the product so that consumers can plant a good image.

As is well known, photovoltaic power generation is a power generation method that converts solar light directly into electrical energy using solar cells without the help of a generator.

Photovoltaic power generation consists of solar cells, storage batteries and power converters. When solar light is irradiated on a solar cell bonded to a P-type semiconductor and an N-type semiconductor, holes and electrons are generated in the solar cell by the energy of the solar light. At this time, holes are gathered toward the P-type semiconductor and electrons are gathered toward the N-type semiconductor, so that a current flows when a potential difference occurs.

The advantages of photovoltaic power generation are that there is no pollution, it can generate as much as necessary where it is needed, and it is easy to maintain. On the other hand, the power output is dependent on the amount of sunshine, the installation site is limited, the initial investment cost and the high cost of power generation.

A number of patents and utility models have been filed and registered in the prior art for a photovoltaic system having many advantages as described above.

Among them, the applicant has filed an application No. 2008-0031812 (name: driving device of the solar module assembly) filed April 04, 2008.

That is, the above-described conventional technical configuration filed by the present applicant is configured as shown in Figure 1 (a) (b) (c), a plurality of foundations are installed in a grid or spaced on a flat or inclined ground is installed fixed Concrete 1; A plurality of propagating pipes 5 fixedly installed on each of the base concretes; A plurality of solar module assemblies 10 connected to the upper end of each of the columnar columns in the columnar column; And a driving unit 20 installed at a lower position of the support tube 5 and the photovoltaic module assembly 10 and rotating all of the plurality of photovoltaic module assemblies in a row and a horizontal row around the module rotation unit 30. The driving device of the solar module assembly is configured.

In the drawing, reference numeral 2 is a support pipe support wire, reference numeral 11 is a frame, 12 is a reinforcing rod, 13 is an electrode plate, 14 is a center plate, 15 is an intermediate plate, 16 is a corner plate, and 23 and 25 are first, 2 hinge portions, 24 are bent links, 27 are straight links, 28 are fourth hinge portions, and 29 are flanges.

The prior art filed by the present applicant configured as described above allows a plurality of photovoltaic module assemblies to be operated at a time by a driving apparatus for a group or the whole of any one unit, and also by the above technical operation The module assembly is easily operated so that it is always perpendicular to the light source according to the movement of the sun over time, and the solar module assembly is structurally robust, and the solar module assembly is firmly supported even in the event of severe storms. In addition, it is possible to improve the workability and work efficiency as well as to make it very convenient for maintenance and repair by structurally simple configuration.

However, the prior art filed by the present applicant also has the following problems in the actual manufacturing process.

That is, when the conventional photovoltaic module assembly is installed on a mountainous terrain, a problem arises in that the forest damage is serious because the mountains must be sharply or inclined.

In addition, the conventional technology has caused a problem that can not adjust the height and height of the sun and the module assembly has been inconvenient in use.

In addition, the conventional technology is structurally complicated, so that the problem of rising production cost and lowering of productivity is generated, as well as a large problem that is not robust.

The present invention has been made to solve the problems of the prior art as described above, the first object is provided with a reinforcement base and pile foundation, lower column and upper column, solar module assembly and driving unit and operating unit. The second purpose is to provide an environmentally friendly construction method by constructing a photovoltaic module assembly in a state in which forest damage is minimized by the above technical configuration, and a third purpose is to provide a plurality of photovoltaic module assemblies. The group or the whole of any one unit can be controlled by the driving unit and the operating unit at one time, and the fourth object is to facilitate the solar module assembly to always be perpendicular to the light source with the movement of the sun over time. The fifth purpose is to structurally solidify the assembly so that it can be operated even in the event of severe storms. The purpose of the optical module assembly is to be firmly supported, and the sixth objective is to structurally simplify the assembly to improve product production and constructability, and the seventh objective is to greatly improve the quality and reliability of the product. It provides a solar module assembly that allows consumers to plant a good image.

In order to achieve the above object, the present invention includes a reinforcement foundation or pile foundation which is fixed and installed at regular intervals on a flat, sloped, jagged terrain; A lower pillar and an upper pillar which are sequentially fixed to the upper end of the reinforcement foundation or the pile foundation vertically; A solar module assembly in which a plurality of upper pillars are connected to and installed on tops of upper pillars of each row; One end is connected to the upper column, the other end is connected to the lower portion of the solar module assembly for driving the solar module assembly; And an operating unit provided on a bottom surface of any one of the plurality of solar module assemblies, and configured to rotate the entire solar module assembly in a row and in a row together. do.

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As described in detail above, the present invention is to be provided with a reinforcement base and pile foundation, the lower column and the upper column, the solar module assembly and the driving unit and the operating unit.

The present invention is to provide a construction method that can be environmentally friendly to be able to construct a solar module assembly in a state of minimizing forest damage by the above technical configuration.

In another aspect, the present invention is to enable a plurality of photovoltaic module assembly to control the operation of the group or the whole of any one unit at a time by the drive unit and the operation unit.

And the present invention is to facilitate the operation of the solar module assembly to always be perpendicular to the light source in accordance with the movement of the sun over time.

In addition, the present invention is structurally configured while making the assembly so that the solar module assembly can be firmly supported even in the event of severe storms.

In addition, the present invention is to simplify the assembly structurally to improve the product production and construction.

The present invention is a very useful invention that can significantly improve the quality and reliability of the product due to the above-described effect so that consumers can plant a good image.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this effect are as follows.

Figure 1 (a) is a front view of the installation state of a conventional solar module assembly,

        (b) is a bottom view of a conventional solar module assembly,

        (c) is a partial configuration diagram of an installation state of a conventional solar module assembly.

2 is a front view of a solar module assembly applied to the present invention.

3 is a bottom view of a plurality of solar module assemblies applied to the present invention.

Figure 4 is a side view of the solar module assembly driver applied to the present invention.

5 is a front view of a solar module assembly driving unit applied to the present invention.

Figure 6 is a schematic diagram between the operation of the solar module assembly applied to the present invention.

Figure 7 is a block diagram of a solar module assembly operation unit applied to the present invention.

Figure 8 is a sphere showing a state in which the solar module assembly applied to the present invention is operated

        Saint.

Figure 9 is a block diagram of a solar module assembly connection portion applied to the present invention.

10 is a block diagram of another embodiment of a solar module assembly applied to the present invention.

11 is a block diagram of another embodiment of a solar module assembly applied to the present invention.

12 is a state in which a plurality of solar module assembly applied to the present invention is installed

         Top view of one embodiment showing.

<Explanation of symbols for the main parts of the drawings>

50: rebar foundation 50a: pile foundation

60: driving unit 70: operating unit

71: between operation 75: solar module assembly

79: operating bar 80: connection

The solar module assembly and the construction method thereof applied to the present invention are configured as shown in FIGS. 2 to 12.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and their definitions should be made based on the contents throughout the specification.

First, the present invention is provided with a reinforcement foundation 50 (FIG. 2, FIG. 8) or pile foundation (50a) (FIG. 10) that is fixed and installed at regular intervals on flat, sloped, jagged terrain.

In addition, the present invention is provided with a lower column 51 and an upper column 52 which are installed in a vertically fixed to the upper end of the reinforcement base 50 or pile foundation (50a) sequentially.

And the present invention is provided with a photovoltaic module assembly 75, a plurality of which is connected to the top of each of the upper column 52 of the upper column 52 is installed.

In addition, the present invention, as shown in Figures 4 and 5, one end is connected to the upper column 52, the other end is connected to the lower portion of the solar module assembly 75 to operate the solar module assembly 75 as a virtual line The driving unit 60 is provided.

In addition, the present invention is provided on the bottom of any one of the plurality of solar module assembly 75, as shown in Figures 6, 7, 8, the whole of the plurality of solar module assembly 75 in a row and cross The solar module assembly is provided by an operation unit 70 for rotating the operation together.

In the technical configuration of the present invention configured as described above the reinforcement base 50 is configured as follows.

That is, as shown in Figures 2 and 8 is provided with a rubble compaction layer 57 on the bottom of the ground to a certain depth, where gravel, coarse sand, fine sand, soil, etc. are installed as a reinforced roadbed.

And the bracing concrete layer 56 is provided on the top of the rubble compaction layer 57, which includes rebar and gravel.

In addition, the base reinforcement 54 is provided on the upper portion of the support concrete layer 56, the base reinforcement 54 is formed in the lower portion is wider and the upper portion is narrower.

In addition, the anchor bolt 53 is installed vertically on the upper part of the reinforcing bar 54.

In addition, the anchor bolt 53 is connected to the lower column 51, and the bottom is provided with an outer concrete layer 55 covering the anchor bolt 53, the base reinforcement 54, the support concrete layer 56 do.

In addition, the detailed technical configuration of the pile foundation 50a applied to the present invention is as follows.

That is, as shown in Figure 10 is provided with a plurality of foundation piles 50b that are embedded in the ground long in the longitudinal direction.

The base concrete layer 50e is provided on the outside while surrounding the base pile 50b.

In addition, the upper portion of the foundation pile 50b is provided integrally, the connection plate 50c for interconnecting the foundation pile 50b and the lower column 51 by the fastening bolt (50d) is provided.

In addition, between the foundation pile 50b and the lower column 51 is provided with a finish concrete layer (50f).

The invention can also be configured as shown in FIG.

That is, a plurality of holes 52a are formed in the lower portion of the upper column 52 at regular intervals so that the height of the upper column 52 can be adjusted, and the lower column 51 is provided with a fastening pin 52b. do.

In addition, the technical configuration of the driving unit 60 applied to the present invention will be described in detail as follows.

That is, the flange 61 is attached to the outer surface of the upper column 52, as shown in Figs.

And the actuator 62 is fixedly installed on the upper portion of the flange (61).

In addition, the lower end of the photovoltaic module assembly 75 so that the front end of the actuator 62 is coupled to the hinge 63 is provided with a bracket (64).

In addition, the photovoltaic module assembly 75 applied to the present invention is provided with a plurality of photovoltaic module assemblies 75 connected in a row by the connecting portion 80 as shown in FIGS. 3 and 9.

That is, the technical configuration of the connection unit 80 described above will be described in more detail.

A plurality of connectors 81 are installed at regular intervals between the two vertical frames 72.

And both ends of the connector 81 is provided with a connector fastener 82 for fixing to be connected with the vertical frame (72).

In addition, looking at the technical configuration of the operation unit 70 applied to the present invention in more detail as follows.

That is, as shown in FIGS. 6 to 8, the operation sections 71 are provided below the vertical frame 72, respectively.

And the operating bar (79) is formed long in the longitudinal direction connected to the lower portion of the operation between the 71 to the hinge axis to rotate the entire operation of the solar module assembly 75 together.

In addition, the middle upper portion of the vertical frame 72 is configured to be provided with a connecting plate 72a to rotate the solar module assembly 75 around the rotation axis (72b).

At this time, the operation 71 is a hinge portion (71a) is formed on the bottom surface to be connected to the operation bar 79, as shown in Figure 6, 7, the upper center and both sides vertically by the operating interlocking fasteners 76 The intermediate connector 71b and the side connector 71c are formed to be connected to the frame 72.

And the solar module assembly 75 applied to the present invention, as shown in Figure 7 the electrode plate 74 is connected to the horizontal frame 73 by the horizontal frame fastener 78, the horizontal frame 73 Is configured to be connected to the vertical frame 72 by the vertical frame connector (77).

On the other hand, the present invention may be variously modified and may take various forms in applying the above configuration.

And it is to be understood that the invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the operation and effect of the present invention solar module assembly and the construction method configured as described above are as follows.

First, the present invention is to provide a environmentally friendly construction method can be constructed with a solar module assembly 75 in a state that minimizes the damage to the forest and also structurally solid while the assembly is configured to generate a severe storm In this case, the solar module assembly 75 can be firmly supported, and the plurality of solar module assemblies can be controlled at one time by a driving unit and an operating unit of a group or the whole thereof. The solar module assembly is to be easily operated to always be perpendicular to the light source according to the movement of the sun over time, and also to simplify the assembly structurally to improve product production and construction.

When explaining the technical effects of the present invention as described above in more detail.

That is, when the photovoltaic module assembly 75 applied to the present invention is installed, it can be represented as the front view of FIG. 2 and the bottom view of FIG. 3 and the installation state of FIG. 12. First, the construction method thereof will be described.

The construction method of the solar module assembly applied to the present invention, while adjusting the height by the reinforcement base portion 50 or pile foundation portion 50a in a state of minimizing forest damage of flat, sloped, jagged terrain It is characterized by the construction of (75).

That is, the construction method of the reinforcement base 50 is described in more detail with reference to FIG. 8 as follows.

First, the rubble compaction layer 57 is installed on the bottom of the ground in a certain depth.

Thereafter, the step of installing the bracing concrete layer 56 on the top of the rubble compaction layer 57 is performed.

Subsequently, the base reinforcement 54 is installed on the upper portion of the support concrete layer 57.

In addition, the anchor bolt 53 is installed on the upper portion of the reinforcing bar 54.

In addition, the anchor bolt 53 is connected to the lower pillar 51 and at the bottom of the anchor bolt 53, the foundation reinforcement 54, the support concrete layer 56 by the outer concrete layer 55 By the solar module assembly is to be constructed.

In addition, the construction method of the pile foundation 50a applied to the present invention will be described in detail with reference to FIG.

First, the base pile 50b formed long in the longitudinal direction is subjected to the step in the ground.

Thereafter, the base concrete layer 50b is covered with a step of installing a base concrete layer 50e provided outside.

Subsequently, the foundation pile 50b is integrally provided on the upper portion, and the connection plate 50c which interconnects the foundation pile 50b and the lower column 52 by the fastening bolt 50d is installed.

In addition, the photovoltaic module assembly is constructed by forming a finishing concrete layer 50f between the foundation pile 50b and the lower pillar 52.

According to the present invention, the lower column 52 is vertically fixed and installed by the reinforcement base part 50 or the pile foundation part 50a as described above. If the construction is made to the construction site to be different it is possible to construct the solar module assembly 75 in a state of minimizing damage to the forest.

And the present invention can raise the upper column 52 when the fastening pins 52b of the plurality of holes 52a formed in the upper column 52 as shown in Figure 11 to the lower hole 52a As a result, the position of the photovoltaic module assembly 75 is raised. On the contrary, when the fastening pin 52b of the plurality of holes 52a is inserted into the upper hole 52a, the upper pillar 52 can be lowered. By lowering the position of the photovoltaic module assembly 75, the photovoltaic module assembly 75 of the present invention has an advantage in that it can be installed in different heights according to the site situation.

In the state set up as described above, the present invention enables the solar module assembly 75 to control operation of a group or the whole by one operation of the driving unit 60 and the operation unit 70.

That is, according to the present invention, the solar module assembly 75 is operated clockwise or counterclockwise about the rotating shaft 72b as shown in FIGS. 4 and 8 by driving the driving unit 60 and the operating unit 70. It becomes possible.

In more detail, when the actuator 62 provided at the upper end of the flange 61 is driven to move the cylinder at the front end, the solar module assembly 75 inclined to one side rotates about the rotation axis 72b and is horizontal. The position of the front end cylinder of the drive unit 60 is connected to the bracket 64 and the hinge 63, so that it can be rotated.

Then, when the cylinder of the driving unit 60 is further advanced, the solar module assembly 75 is rotated about the rotational axis 72b and positioned in an inclined state to the other side. The solar module assembly 75 is moved along the sun to receive it, and as a result, the solar module assembly 75 provides the effect of receiving sunlight directly vertically.

The other solar module assembly 75 which is not directly connected to the driving unit 60 during the operation of the solar module assembly 75 is moved together by the operating unit 70.

That is, the photovoltaic module assembly 75 includes a plurality of photovoltaic module assemblies 75 connected to each other by a connecting portion 80, and an operating portion 70 is connected to the lower portion of the photovoltaic module assembly 75 together with the operating bar 79. When any one of the solar module assembly 75 is driven by the drive unit 60, the other solar module assembly 75 is moved together accordingly, wherein the solar module assembly 75 in the other row is also operating bar ( 79) they move together.

More specifically, for example, FIG. 12 is a view in which the actual photovoltaic module assembly 75 is installed, and the driving unit 60 in any one of the column and row columns is any one of the solar module assemblies 75. The operating bar 79 is laterally connected to the plurality of operating sections 71 while being installed at one bottom of the plurality of operating sections 71 and being installed on the longitudinal bottom of each solar module assembly 75. do.

When the driving unit 60 is operated in the above state, the solar module assembly 75 directly connected to the driving unit 60 is driven, and the other solar module assembly 75 in the longitudinal direction is also connected by the connection unit 80. The other solar module assembly 75 in the transverse direction is further moved as the operation bar 79 connected to the operation unit 70 moves left and right as shown in FIGS. 3, 7 and 8. To allow the solar module assembly 75 to rotate all at once.

In this case, the operation bar 79 formed long in the longitudinal direction rotates about the hinge portion 71a of the operation section 71 connected at regular intervals, and the solar module assembly 75 is connected to the connection plate 72a. It rotates about the established rotating shaft 72b.

The solar module assembly 75 rotated to the other side as described above is rotated counterclockwise again in the reverse order of the above operation when the driving unit 60 is driven in reverse, and is positioned in the initial state, and is driven again from the beginning. Done.

The present invention has the effect that can be installed by connecting a plurality of solar module assembly 75 by the connector 81 and the connector fastener 82 in succession.

And formed between the operation 71 tomb 'Y' applied to the present invention is firmly fixed to the vertical frame 72 by the intermediate connecting portion (71b) and the side connecting portion (71c) as well as the operating interlocking fixture (76) and vertical The frame fastener 77 and the horizontal frame fastener 78 also provide the effect of simply and tightly fixing the solar module assembly 75 to each other.

The technical idea of the photovoltaic module assembly and the construction method thereof of the present invention is actually capable of repeating the same result, and in particular, by implementing the present invention, it is possible to promote the technological development and contribute to the industrial development, which is worth protecting.

Claims (13)

Rebar foundation part 50 or pile foundation part 50a which is buried and fixed at regular intervals on flat, sloped, jagged terrain; A lower pillar 51 and an upper pillar 52 which are sequentially fixed to the upper end of the reinforcing bar foundation or the pile foundation part in a vertical order; A solar module assembly 75 having a plurality connected to an upper end of each upper column of the upper pillars; A driving unit 60 connected at one end to an upper pillar and connected at a lower end of the solar module assembly to operate the solar module assembly; And The solar module assembly is provided on the bottom surface of any one of the plurality of solar module assembly, the operation unit 70 for rotating the whole of the plurality of solar module assembly in a row and horizontal line together; . The method according to claim 1, The rebar foundation 50 is, Rubble compaction layer 57 is provided on the bottom of the ground depth; A support concrete layer 56 provided on the rubble compaction layer; A basic reinforcing bar 54 provided on an upper portion of the support concrete layer; An anchor bolt 53 provided on an upper portion of the basic rebar; And The anchor bolt is connected to the lower column and the lower portion of the anchor bolt, the base reinforcement, the reinforced concrete layer 55 covering the reinforced concrete layer; Solar module assembly characterized in that it is provided. The method according to claim 1, The pile foundation 50a, A plurality of foundation piles 50b embedded in the ground long in the longitudinal direction; A base concrete layer 50e provided outside while surrounding the foundation pile; A connection plate 50c provided integrally with the upper portion of the foundation pile and interconnecting the foundation pile and the lower pillar by fastening bolts; And And a finishing concrete layer (50f) between the foundation pile and the lower column. The method according to claim 1, A plurality of holes (52a) are formed in the lower portion of the upper column at regular intervals to adjust the height of the upper column, the lower pillar is a solar module assembly, characterized in that the fastening pin (52b) is provided. The method according to claim 1, The drive unit 60, A flange 61 attached to an outer surface of the upper pillar; An actuator 62 fixedly installed on an upper portion of the flange; And a bracket (64) formed at the bottom of the photovoltaic module assembly such that the front end of the actuator is coupled to the hinge. The method according to claim 1, The solar module assembly 75, A solar module assembly, characterized in that the plurality of photovoltaic module assemblies are connected in a row by the connecting portion (80). The method according to claim 6, The connecting portion 80, Connector 81 is installed a plurality of at regular intervals between the two vertical frames; And Both ends of the connector is connected to the connector coupled to the vertical frame fasteners (82); solar module assembly characterized in that it is provided. The method according to claim 1, The operation unit 70, Operation period 71 is provided in each of the lower portion of the vertical frame; An operating bar (79) extending in the longitudinal direction connected to the lower part of the operation to rotate the entire solar module assembly together; And a connecting plate (72a): provided at the middle upper portion of the vertical frame to rotate the solar module assembly about the rotation axis. The method according to claim 8, Between the operation 71, The hinge portion 71a is formed at the bottom to be connected to the operation bar, and the intermediate connection portion 71b and the side connection portion 71c are further formed at the upper center and both sides to be connected to the vertical frame by the operation interlocking fastener 76. The solar module assembly. The method according to claim 1, The solar module assembly 75, The electrode plate is connected to the horizontal frame by the horizontal frame fastener, the horizontal frame is connected to the vertical frame by the vertical frame connector, characterized in that the solar module assembly. delete delete delete