CN111147003A - Power generation device carrier and bearing frame structure bearing power generation device carrier - Google Patents

Abstract

The invention discloses a power generation device carrier, comprising: at least one column body, which comprises a column and a panel, wherein two ends of the column are respectively combined with a supporting element, the panel surrounds the periphery of the column, and the panel is also mutually jointed with the supporting elements at two ends of the column; the invention also discloses a bearing frame structure for bearing the power generation device carrier, wherein the power generation device carrier is additionally arranged on a bearing frame structure with excellent supporting strength.

Description

Power generation device carrier and bearing frame structure bearing power generation device carrier

Technical Field

The present invention relates to the field of power generation devices, and more particularly, to a power generation device carrier and a support structure for supporting the power generation device carrier, which are easily and quickly assembled and have excellent support strength.

Background

A solar panel structure of a solar power generation device, such as a new type of "carrying device for solar panel" patent No. M543974 published in taiwan 2017, 6/21/7, discloses: the solar panel is provided with a frame, the bearing device comprises a base column, a supporting cross bar and a plurality of fixing frames, and the base column is provided with a top end part; the supporting cross rods are fixedly connected to the top end part in a transverse configuration mode, and the solar panel is fixedly arranged above the supporting cross rods; each fixing frame is provided with a middle part and two inclined supports which extend outwards from two sides of the middle part, the middle parts are fixedly connected below the supporting cross rods, the inclined supports are fixedly connected to the frame, and an acute angle is formed between each inclined support and the frame. Borrow this, support the horizontal pole and install the mount additional, make support horizontal pole and mount can share solar panel's weight jointly, and have the acute angle between each slope support and the frame, more can strengthen the structural strength who bears the device to reach and bear the device and have good ground bearing effect.

The solar panel disclosed in the prior art is mostly a plate-shaped structure, but the plate-shaped structure requires a large floor area on one hand, and on the other hand, the solar panel is easily damaged by wind due to a large wind area, so that the power generation efficiency is greatly reduced.

Therefore, there is a new patent No. M551787 issued in taiwan 2017, 11/11, which discloses a solar power generation pile structure with a clamping unit, and includes: a column; the solar power generation modules are mutually stacked, and each solar power generation module is provided with at least one clamping unit at the upper end part and the lower end part of the supporting frame; and at least one connecting unit electrically connected with any two solar power generation modules. Therefore, the upper solar power generation module and the lower solar power generation module are quickly combined into a whole, the damage of connecting units and the like caused by shearing force due to the fact that the upper solar power generation module and the lower solar power generation module are staggered due to the rotation of the single solar power generation module can be avoided, and meanwhile, the upper solar power generation module and the lower solar power generation module can synchronously rotate to facilitate cleaning operation.

The patent proposes that a cylindrical solar panel support structure is used to reduce the area of the windward side and avoid damage caused by wind. The supporting structure is not ideal in use because it has a complicated internal structure and many combined members, which consumes materials and increases the overall weight.

Disclosure of Invention

Accordingly, in view of the above-mentioned disadvantages of the conventional solar power generation apparatus, the present invention is directed to a power generation apparatus carrier and a rack structure carrying the power generation apparatus carrier.

Based on the above, the present invention mainly adopts the following technical means to achieve the above object.

A power plant carrier comprising: at least one column body, which comprises a column and a panel, wherein two ends of the column are respectively combined with a supporting element, the panel surrounds the periphery of the column, and the panel is also mutually jointed with the supporting elements at two ends of the column; at least one solar panel is arranged on the outer side of the panel.

Further, when there are more than two columns, the two columns are engaged with each other by the supporting members each other.

Furthermore, when more than two columns are arranged, the combined plate is arranged between the two columns to replace the supporting element on any side of the two columns, so that the panels of the two columns are combined on the combined plate together, and the two columns are combined.

Furthermore, the solar panel is in a single-sheet or multi-sheet type, and the solar panel is fixed on the outer side of the panel by a fixing unit.

Further, a wind power generation device, a telecommunication transmitting device, an LED lamp, a lightning rod or a camera unit is disposed on the supporting element or the column at the topmost part.

Further, the support member has a disk shape.

Further, the support element is a combination of at least two pieces.

Furthermore, the panel is a circular plate body or is formed by combining more than two arc panel bodies.

A bearing frame structure bearing a power generation device carrier comprises a plurality of transverse rods and a plurality of longitudinal rods which are mutually connected; and the power generation device carrier is arranged on the longitudinal rod body.

After the technical means are adopted, the invention has the following advantages: .

1. The whole components are quite simple, can be disassembled, collected and carried one by one, cannot occupy excessive space, and can be conveniently transported to a destination and then immediately assembled with the solar panel to complete the solar power generation device.

2. When each column body is connected, more solar panels can be effectively placed in a limited space through welding of every two column bodies, and further more energy sources are output.

3. One of the invention is provided with a transverse rod body and a longitudinal rod body, and the power generation device carrier is arranged on the rod body, so that a frame body with higher strength can be erected for placement in cooperation with different field environments.

4. The device can be additionally arranged on a wind power generation device for use, and can add another green energy obtaining type besides the green energy of the original wind power.

5. The telecommunication transmitting device is additionally arranged on the top of the device to be used as a telecommunication base station (4G, 5G and other higher-order types can also be used), so that the base station can have sufficient and free power to use when in operation.

6. The LED is additionally arranged on the top of the device to be used as a warning light device, or can be customized to manufacture no matter whether thick or thin on the prior street lamp post.

7. And a lightning rod is additionally arranged on the top of the device to be used as a lightning rod device.

Drawings

Fig. 1 is an exploded perspective view of a first embodiment of the present invention.

Fig. 2 is a perspective assembly view of the first embodiment of the present invention.

Fig. 3 is a cross-sectional view of a first embodiment of the present invention.

Fig. 4 is a perspective view of the solar panel assembly according to the first embodiment of the present invention.

Fig. 5 is an exploded perspective view of a second embodiment of the present invention.

Fig. 6 is a perspective assembly view of a second embodiment of the present invention.

Fig. 7 is a perspective view of a solar panel assembly according to a second embodiment of the present invention.

Fig. 8 is a schematic diagram of a third embodiment of the present invention.

Fig. 9 is a schematic view of a fourth embodiment of the present invention.

Fig. 10 is a schematic view of a fifth embodiment of the present invention.

Fig. 11 is a schematic view of a sixth embodiment of the present invention.

Fig. 12 is a schematic view of a seventh embodiment of the present invention.

[ notation ] to show

Reference numerals of the first embodiment

1 column body

11 column

12 Panel

Upper circle of 121

122 lower circle

123 fixing unit

13. 14 support element

15 solar panel

Reference numerals of the second embodiment

2 column body

21 column

22 support element

23 solar panel

Reference numerals of the third embodiment

3 combining plate

31. 32 column

33. 34 support element

Fourth embodiment reference numerals

4 wind power generation device

Reference numerals of the fifth embodiment

5 support element

51 telecommunication transmission device

Reference numerals of the sixth embodiment

6 upright post

61 LED lamp

Reference numerals of the seventh embodiment

7 transverse rod body

71 longitudinal rod

72 a power plant carrier.

Detailed Description

Referring to fig. 1 and 2, a first embodiment of a power generation device carrier according to the present invention is shown, which mainly presents a minimum layer type, wherein the power generation device carrier includes: a column body 1 comprises a column 11 and a panel 12, wherein in the first embodiment, the column 11 has a hollow geometric shape, thereby reducing material consumption and weight and having the original solid strength. The hollow geometric shape includes polygonal hollow shapes such as a circle, a triangle, a quadrangle, a pentagon, and a hexagon.

And two support elements 13, 14 are combined on two sides of the upright post 11, the panel 12 surrounds the upright post 11, and the panel 12 and the support elements 13, 14 on two sides of the upright post are mutually welded and fixed. And a solar panel is fixed on the outer side of the panel 12 through a fixing unit 123 on the panel 12. More specifically, the solar panel may be of a single-sheet or multi-sheet configuration. In the first embodiment, the fixing unit may be a screw, a rivet, an adhesive, or the like.

As shown in fig. 1 and 3, in the first embodiment, the panel 12 is cylindrical, and the cylindrical upper circle 121 and the cylindrical lower circle 122 are welded and fixed to the two support elements 13 and 14, the support elements 13 and 14 are also disc-shaped, and both sides of the upright post 11 are also welded and fixed to the two support elements 13; 14, thereby forming the column 1.

Referring to fig. 4, a single or multiple solar panels 15 are combined on the outer side of the panel 12, and the solar panels 15 are fixed on the outer side of the panel 12 by a fixing unit 123, wherein the fixing unit 121 can be a screw, a rivet or other adhering means.

Referring to fig. 5, the second embodiment of the present invention is shown, which is different from the first embodiment in that the second embodiment is mainly used in a multi-layer structure, in order to be able to erect a larger number of structures in a limited space, and therefore, a plurality of structures of the first embodiment are stacked in a longitudinal direction, and the difference from the first embodiment is that, in order to be able to achieve a multi-layer structure (i.e. a plurality of columns 2), the column 21 must be fixed on a ground with increased strength in the arrangement of the column 21, and the column 21 is inserted into the ground to achieve the fixing effect in more detail, unlike the first embodiment, the length of the column 21 is significantly longer, and the overall length can be increased as required, however, the second embodiment is mainly a multi-layer structure, and two columns 2 can be connected with each other through the supporting element 22, in the second embodiment, it is assumed that any of the support members 22 of the two columns 2 are welded and fixed to each other, thereby forming a multi-layered structure.

Fig. 6 is a combined representation of each column 2, which may extend in the longitudinal direction according to the desired height. While figure 7 is shown in combination with the solar panel 23.

Please refer to fig. 8, which shows a third embodiment of the present invention, the third embodiment is mainly a variation of the second embodiment, and the difference is that a combination board 3 is further included, the combination board 3 is disposed between two columns 31, 32, the support elements 33, 34 on only one side of the two columns 31, 32 are not provided on the side where the two columns 31, 32 are connected, the two columns 31, 32 are combined together on the combination board 3, thereby combining the two columns 31, 32 to form a multi-layer structure.

In the fourth embodiment of the present invention, a wind power generator 4 (as shown in fig. 9) can be further disposed on the upright column for use as a wind power generation system to assist in enhancing the power generation capacity.

In the fifth embodiment of the present invention, a telecommunication transmitter 51 can also be installed on the topmost supporting element 5 to serve as a telecommunication base station (as shown in fig. 10). A lightning conductor (not shown) may also be provided on the topmost support element 5 for use as a lightning conductor means. A camera unit (not shown) may also be provided on the support element 5 for use as a monitoring device.

In the sixth embodiment of the present invention, an LED lamp 61 (as shown in fig. 11) may also be disposed on the pillar 6 to serve as a warning light device.

Referring to fig. 12, a seventh embodiment of the present invention is shown, in which a supporting frame structure for supporting a power generating device carrier is shown, and includes a plurality of transverse rods 7 and a plurality of longitudinal rods 71 connected to each other; the power generation device carrier 72 according to any one of the first to third embodiments is provided on the longitudinal rod 71. Therefore, the frame body with higher strength can be erected for placement by matching with different field environments.

The operation, use and efficacy of the present invention can be fully understood from the description of the embodiments, which are given by way of illustration only, and the scope of the invention should not be limited thereby, i.e., the invention is intended to cover various modifications and equivalents.

Claims (9)

1. A power plant carrier, comprising:

at least one column body, which comprises a column and a panel, wherein two ends of the column are respectively combined with a supporting element, the panel surrounds the periphery of the column, and the panel is also mutually jointed with the supporting elements at two ends of the column;

at least one solar panel is arranged on the outer side of the panel.

2. The power plant carrier of claim 1, wherein: when more than two columns are present, the two columns are joined to each other by the support elements.

3. The power plant carrier of claim 1, wherein: when more than two columns are arranged, the combined plate is arranged between the two columns to replace the supporting element on any side of the two columns, so that the panels of the two columns are combined on the combined plate together, and the two columns are combined.

4. The power plant carrier of claim 1, wherein: the solar panel is in a single-sheet or multi-sheet type, and the solar panel is fixed on the outer side of the panel by a fixing unit.

5. The power plant carrier of claim 1, wherein: a wind power generation device, a telecommunication transmitting device, an LED lamp, a lightning rod or a camera unit are arranged on the supporting element or the upright column at the topmost part.

6. The power plant carrier of claim 2, wherein: the support member is a disc.

7. The power plant carrier of claim 2, wherein: the support element is a combination of at least two pieces.

8. The power plant carrier of claim 1, wherein: the panel is a circular plate body or is formed by combining more than two arc panel bodies.

9. A bearing frame structure bearing a power generation device carrier is characterized by comprising a plurality of transverse rods and a plurality of longitudinal rods which are mutually connected; and a power plant carrier according to any one of claims 1 to 8 provided on said longitudinal rod.

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