TWM636144U - Tree-shaped solar power collector column and power collector system - Google Patents

Abstract

This creation discloses a tree-like solar power collection column and power collection system, which can be directly installed on the land where crops or plants have been planted due to the small size of the column and the characteristics of easy assembly, and the branch-shaped solar energy absorption module can It can adjust the function to meet the needs of crops or plants for sunlight, and at the same time maximize the absorption area and light transmittance of each layer of solar absorption modules.

Description

Tree solar collector column and collector system

This creation relates to a solar power collecting device, especially a tree-shaped solar power collecting column and a power collecting system that increases the area of solar energy absorption.

In order to curb global warming, many countries have proposed net-zero carbon emission plans and actively developed renewable energy, such as solar energy, wind power, tidal energy, geothermal energy, hydropower, biogas, etc., to reduce carbon emissions; especially For solar energy, the demand for solar power collectors has grown rapidly in recent years. Many solar farms are built on agricultural land, gradually developing into a model of symbiosis between agriculture and electricity.

However, if the solar collectors are directly arranged and gathered on the ground, such as solar collector panels, it will be difficult for the land to be used for other purposes, and the quality of the harvested plants may also be uneven due to uneven illumination; in addition, Part of the land may be limited by land characteristics or regulations, or there are already existing crops or plants on the land, so it is impossible to re-erect large-scale solar farms.

Accordingly, how to provide a solar power collector that can achieve the power generation function without hindering land restrictions and without affecting the growth of crops or plants is a problem to be solved.

In view of the above-mentioned problems, the author of this article improved the solar collector device based on years of experience in related industries; therefore, the main purpose of this article is to provide a method that does not hinder land restrictions and does not affect crops. Or in the case of plant growth, a tree-shaped solar collector column and a collector system that achieves the power generation function.

In order to achieve the above-mentioned purpose, the tree-shaped solar collector column of this creation mainly has a column and multiple sets of solar absorbing modules, each solar absorbing module has a solar panel bracket, a plurality of solar panels, and a T-shaped tenon and convex part Each solar panel is spaced apart from each other and vertically arranged on the solar panel support to form a solar absorbing module similar to a branch and leaf; in addition, the solar absorbing module is correspondingly buckled on a column on the column by the T-shaped tenon and convex part. On the bearing part, they are arranged at 90 degrees to each other and spirally circled along the column.

Also, the tree-shaped solar power collection column of this creation can be integrated with a pressurized motor, a water tower, and a pumping motor into a tree-shaped solar power collection system, and the water stored in the water tower is transported to a tree-shaped solar power collection column on the top of the tree-shaped solar power collection column through a water pipe. Cleaning device, the cleaning device can spray water upwards to clean the dust on each layer of solar energy absorbing modules.

In order to enable your review committee to clearly understand the purpose, technical features and effects of this creation, the following descriptions are provided with illustrations, please refer to it.

Please refer to "Figure 1", which is a structural diagram of the solar power collection system of this creation. As shown in the figure, the solar power collection system of this creation has a tree-shaped solar power collection column 1, a pressurized motor 2, a water tower 3, and A pumping motor 4, wherein, the tree-shaped solar collector column 1, the pressurized motor 2, the water tower 3, and the pumping motor 4 are respectively connected to each other by a water pipe T, and the water tower 3 is erected higher than the tree-like solar collector column 1 And the pumping motor 4, and the water is transported from the ground to the water tower 3 for storage by the pumping motor 4, and then supplied downward with the natural water pressure or the pressurized motor 2.

Please refer to "Figure 2", which is a partial structure diagram (1) of the tree-shaped solar collector column created for this work. As shown in the figure, the tree-shaped solar collector column 1 has a column 11, and multiple sets of solar absorption modules 12, columns 11 can be one of triangular prisms, square prisms, polygonal prisms, or cylinders, but not limited thereto; each solar absorbing module 12 is arranged around the column 11, and the solar absorbing modules 12 have a height difference between them, The height difference can be, for example, 30 to 50 centimeters, so that sunlight can enter the solar absorption modules 12 of each layer through the height difference; in one embodiment, each solar absorption module 12 is 90 degrees to each other and spirals along the column 11 Surrounding arrangement, in this way, this creation can meet the needs of crops or plants for sunlight through the height difference and specific angle between the column 11 and the solar absorbing module 12, and can also maximize the absorption area of the solar absorbing module 12 on each layer.

Please refer to "Figure 3", which is a partial structure diagram (2) of the tree-shaped solar collector column created by this author. As shown in the figure, the solar absorbing module 12 has a solar panel bracket 121, a plurality of solar panels 122, and a T The mortise and protrusion 123 of the letter card, the solar panels 122 are spaced apart from each other, and are vertically arranged on the solar panel support 121, thereby forming a shape similar to branches and leaves (such as E-shaped, Y-shaped, M-shaped, or other irregular shapes, etc.) ), wherein the solar panel 122 can be a solar panel with the same length or different lengths; in one embodiment, the solar panel 122 can be arranged on the solar panel support 121 by a connecting piece, The connector can be one of a universal joint, a tenon, or a pair of locking screws or a combination thereof, but not limited thereto; in another embodiment, the solar panel bracket 121 can also be a solar panel, Thus, the solar panel is integrally formed with the solar panel 122 .

On top of that, the tree-shaped solar collector column 1 has one or a plurality of bearing parts 13 arranged on the column 11. The bearing part 13 can be a T-shaped tenon concave part, and the T-shaped tenon tenon convex part 123 is correspondingly engaged, so that , because the tenon is T-shaped, and there are many adjacent sides engaged with each other, the force of engagement is enough to support the solar energy absorbing module 12, and the structure of the tenon is simple, so that the solar absorbing module 12 can be easily disassembled.

Please refer to "Fig. 4", which is an embodiment (1) of this creation. As shown in the figure, the solar panel bracket 121 has an arc-shaped groove 1211, and the T-shaped tenon convex part 123 has a spherical part 1231. The spherical part 1231 It can be a hemisphere, and the arc groove 1211 can be a groove corresponding to the hemisphere; please continue to refer to "Figure 5", which is a schematic diagram of the implementation of this invention. 1211 cooperate with each other to adjust the solar absorbing module 12. The spherical part 1231 can be displaced in the arc-shaped groove 1211 to form a structure similar to a universal joint, so that the solar absorbing module 12 can rotate in different angles and directions. In order to increase the light transmittance of the solar absorbing module 12 and maximize the absorbing area of each layer of the solar absorbing module 12 at the same time.

Referring to "Fig. 6", it is the embodiment (2) of this creation. As shown in the figure, the tree-shaped solar collector column 1 has a cleaning device 14 arranged on the top of the column 11. The cleaning device 14 can pass the water delivered by the water pipe T , upward spray cleaning solar absorbing module 12, to remove the dust on each layer of solar absorbing module 12, like this, this creation does not need to regularly clean tree-shaped solar collector column 1 through manpower, and the water of cleaning can simultaneously carry out crops or plants irrigation.

Please refer to "Figure 7", which are schematic diagrams of the implementation situation of this creation. As shown in the figure, since the tree-like solar collector column 1 of this creation is a columnar solar collector, it is small in size and easy to assemble. It can be directly installed on the land where crops or plants have been planted; for further details, please refer to the table below, which is a comparison table of experimental data created by this author. Generally, the average area of traditional solar power panels is 5 square meters per kilowatt. The time it can generate electricity is 3 to 5 hours per day, and the total power generation is 3.5 kilowatt-hours per kilowatt; the tree-like solar collector column 1 of this creation only covers an area of 1.74 square meters per kilowatt, and because of its branch-leaf shape The solar absorbing module 12, so it can generate electricity for 5 to 8 hours per day, and the total power generation can be as high as 5 degrees per kilowatt; in comparison, this creation does not affect the growth of crops or plants Next, the light transmittance of the solar absorbing module 12 is increased, and at the same time, the absorption area of each layer of the solar absorbing module 12 is maximized. prior art This creation Floor area 5 square meters per kilowatt About 1.74 square meters per kilowatt power generation time 3-5 hours a day 5-8 hours a day power generation 3.5 degrees per kilowatt 5 degrees per kilowatt

From the above, it can be seen that the tree-shaped solar collector column of this creation can be directly installed on the land where crops or plants have been planted mainly due to the small size of the column and the characteristics of easy assembly, and the branch-shaped solar energy absorption module The adjustable function meets the needs of crops or plants for sunlight, and at the same time maximizes the absorption area and light transmittance of each layer of solar absorption modules; , and can also achieve the purpose of a tree-shaped solar collector column and a collector system for power generation without affecting the growth of crops or plants.

However, what is described above is only a preferred embodiment of this creation, and is not used to limit the scope of implementation of this creation; anyone who is familiar with this skill can make equal changes and modifications without departing from the spirit and scope of this creation , should be covered within the patent scope of this creation.

To sum up, this creation has the patent requirements of "industrial applicability", "novelty" and "progressiveness". The applicant should file an application for a new type patent with the Jun Bureau in accordance with the provisions of the Patent Law.

1: tree solar collector column 11: column 12: Solar absorption module 121: Solar panel support 1211: arc groove 122: Solar panel 123: T-shaped tenon and convex part 1231: spherical part 13: Carrying part 14: Cleaning device 2: pressurized motor 3: water tower 4: Pumping motor T: water pipe

Figure 1 is the structural diagram of the tree-shaped solar power collection system created by this author. Figure 2 is a partial structure diagram (1) of the tree-shaped solar collector column created by this author. Figure 3 is a partial structure diagram (2) of the tree-shaped solar collector column created by this author. Fig. 4 is the embodiment (1) of this creation. Figure 5 is a schematic diagram of the implementation of this creation. Fig. 6 is the embodiment (2) of this creation. Figure 7 is a schematic diagram of the implementation situation of this creation.

1: tree solar collector column

11: column

12: Solar absorption module

Claims (13)

A tree-shaped solar collector column, which is arranged around crops or plants, includes: a column; and Multiple groups of solar absorbing modules are arranged around the column; Wherein, each of the solar absorbing modules has a solar panel support and a plurality of solar panels, and each of the solar panels is spaced apart from each other and vertically arranged on the solar panel support, thereby forming the solar absorbing module similar to a leaf shape. The tree-shaped solar power collecting column as claimed in claim 1, wherein the solar energy absorbing modules are arranged at 90 degrees to each other, and are spirally arranged along the column. The tree-shaped solar collector post as described in claim 1, wherein a connecting piece is arranged between each solar panel and the solar panel support, and the connecting piece is a universal joint, a tenon, or a pair of locking screws one of them or a combination thereof. The tree-shaped solar power collecting column as claimed in claim 1, wherein the solar panel support and each of the solar panels are integrally formed. The tree-shaped solar power collecting column as described in Claim 1, wherein one or a plurality of supporting parts are arranged on the column, and the supporting parts are arranged correspondingly to a T-shaped tenon and convex part of the solar energy absorbing module. The tree-shaped solar collector post as described in Claim 5, wherein the solar panel support has an arc-shaped groove, and the T-shaped tenon protrusion has a spherical portion, and the spherical portion and the arc-shaped groove are arranged corresponding to each other. The tree-shaped solar collector pole as described in Claim 1, wherein a cleaning device is provided on the top of the pole for cleaning each of the solar energy absorbing modules. A tree-shaped solar power collection system applied to crops or plants, comprising: A water tower erected higher than a tree-shaped solar collector column; a pumping motor for delivering water to the water tower for storage; and The tree-shaped solar collector column has a column, multiple groups of solar energy absorption modules, and a cleaning device. The cleaning device is used to take water from the water tower through a water pipe to clean each of the solar energy absorption modules, and each of the solar energy The absorbing module has a solar panel support and a plurality of solar panels, each of the solar panels is spaced apart from each other and vertically arranged on the solar panel support, thereby forming the solar absorbing module similar to a branch and leaf. The tree-shaped solar power collection system as claimed in claim 8, wherein the solar energy absorbing modules are arranged at 90 degrees to each other, and are spirally arranged along the column. The tree-shaped solar power collection system as described in claim 8, wherein, a connecting piece is arranged between each solar panel and the solar panel support, and the connecting piece is a universal joint, a tenon, or a pair of locks One or a combination of screws. The tree-shaped solar power collection system as claimed in claim 8, wherein the solar panel support is integrally formed with each of the solar panels. The tree-shaped solar power collection system as described in Claim 8, wherein one or a plurality of supporting parts are arranged on the column, and the supporting parts are arranged correspondingly to a T-shaped tenon and convex part of the solar energy absorbing module. The tree-shaped solar power collection system according to claim 12, wherein, the solar panel support has an arc-shaped groove, and the T-shaped tenon protrusion has a spherical portion, and the spherical portion and the arc-shaped groove are arranged corresponding to each other.

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