CN111641371A

CN111641371A - Floating type photovoltaic cell panel mounting assembly based on modularization

Info

Publication number: CN111641371A
Application number: CN202010507741.4A
Authority: CN
Inventors: 张�浩; 陈生明; 王凯
Original assignee: HEFEI LISTEN NEW ENERGY TECHNOLOGY CO LTD
Current assignee: HEFEI LISTEN NEW ENERGY TECHNOLOGY CO LTD
Priority date: 2020-06-05
Filing date: 2020-06-05
Publication date: 2020-09-08

Abstract

The invention discloses a floating type photovoltaic cell panel installation assembly based on modularization and relates to the technical field of new energy. The invention comprises a plurality of floating carriers; the floating carrier includes a support frame; a plurality of connecting rods are inserted in the supporting frame in parallel; both ends of the connecting rod are rotatably connected with a connecting sleeve; one connecting sleeve of one floating carrier is connected with the other corresponding connecting sleeve on the other floating carrier through an elastic connecting ring; a floating body is arranged above the supporting frame; a caisson is arranged on one opposite side of the floating body; the caisson is arranged below the supporting frame; a pair of first positioning columns is vertically arranged on the separated side of each caisson; the first positioning column is vertically inserted in the supporting frame; a second positioning column is vertically arranged at each of the four corners of the floating body; the second positioning column is vertically inserted on the supporting frame in a penetrating way. The photovoltaic solar panel mounting structure can effectively improve the mounting stability of the photovoltaic solar panel and has higher market application value.

Description

Floating type photovoltaic cell panel mounting assembly based on modularization

Technical Field

The invention belongs to the technical field of new energy, and particularly relates to a floating type photovoltaic cell panel installation assembly based on modularization.

Background

Floating power stations have many unique advantages over traditional power stations. Under the condition that the land resources are more and more scarce, the floating power station does not occupy the land resources, and can effectively utilize waste pits, reservoirs and mining subsidence areas; the water-cooling ventilation effect is good, and the generated energy is improved by about 10% on the same scale; the construction of the power station is convenient and fast, the construction period is short, and the marginal cost of the power station can be effectively reduced; in addition, the floating power station can reduce water evaporation and inhibit algae growth.

The requirement of the floating equipment is high, the equipment has the characteristics of good corrosion resistance, low density, frost heaving resistance, wind wave resistance and the like, and the long-term reliability of the components in a humid environment, the bearing capacity of the floating platform and the service life of the floating platform are strictly considered. The method needs to be selected in water areas with wider area, stable runoff, low wind speed, good illumination condition, less water level change, better development condition, no large-scale shipping, ecological non-sensitive areas and the like.

At present, the structural design of the floating photovoltaic cell panel assembly in the prior art is complex, the wind and wave resistance performance is poor, and the problems of structural scattering and the like easily occur when wind and waves are encountered. Therefore, there is a need to develop a floating photovoltaic cell panel mounting assembly based on modularization so as to solve the above problems.

Disclosure of Invention

The invention aims to provide a floating photovoltaic cell panel mounting assembly based on modularization, and the floating photovoltaic cell panel mounting assembly is only used for solving the problems in the background technology.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a floating type photovoltaic cell panel mounting assembly based on modularization, which comprises a plurality of floating carriers; the floating carrier includes a support frame; a plurality of connecting rods are inserted in the supporting frame in parallel; both ends of the connecting rod are rotatably connected with a connecting sleeve; one connecting sleeve of one floating carrier is connected with the other corresponding connecting sleeve on the other floating carrier through an elastic connecting ring; a floating body is arranged above the supporting frame; a caisson is arranged on each of the opposite sides of the floating body; the caisson is arranged below the supporting frame; a pair of first positioning columns is vertically arranged on the separated sides of the two caissons; the first positioning column is vertically inserted in the supporting frame; a second positioning column is vertically arranged at each of four corners of the floating body; the second positioning column is vertically inserted on the supporting frame in a penetrating manner; the upper end and the lower end of the second positioning column and the lower end of the first positioning column are both provided with a positioning sheet and a positioning sleeve; the caisson is clamped and positioned by a positioning piece positioned at the lower end of the first positioning column, and the position of the positioning piece is locked by the positioning sleeve; the positioning sheet positioned at the upper end of the second positioning column clamps and positions the floating body, and the position of the positioning sheet is locked through the positioning sleeve; the caisson is clamped and positioned by a positioning sheet positioned at the lower end of the second positioning column, and the position of the positioning sheet is locked by the positioning sleeve; a pair of bearing frames corresponding to the first positioning columns are arranged on one opposite sides of the floating body; the bearing frame is arranged on the upper end part of the first positioning column; the bearing frame is provided with at least one clamping piece for clamping the photovoltaic cell.

Furthermore, a pair of limiting columns is vertically inserted into one surface of the positioning sheet; the limiting column is in threaded fit with the positioning sheet; the outer wall of the limiting column is matched with the outer side wall of the floating body or the outer side wall of the caisson.

Further, the bearing frame comprises a horizontal section and an inclined section; the horizontal section is arranged above the inclined section; the horizontal section and the inclined section are provided with free ends; the free end is sleeved on the periphery of the first positioning column.

Furthermore, a branch section corresponding to the second positioning column is arranged on the inclined section; the branch section is provided with a bayonet structure; the bayonet structure is clamped on the upper end part of the second positioning column.

Further, a pair of fastening sleeves are in threaded fit with the upper end of the first positioning column; the fastening sleeve is arranged between the two free ends and locks and limits the free end below the fastening sleeve; and the other fastening sleeve is arranged above the horizontal section and limits the horizontal section.

Furthermore, a tension spring is sleeved at the upper end part of the first positioning column; the tension spring is arranged between the two free ends.

Further, the clamp comprises a support column; the supporting column is vertically inserted into the upper part of the bearing frame; both ends of the supporting column are sleeved with a clamping sheet and a locking sleeve; when the photovoltaic cell panel is installed, the two clamping pieces are respectively arranged on the upper side and the lower side of the photovoltaic cell panel and used for locking and positioning the photovoltaic cell panel, and the clamping pieces are locked in position through the locking sleeves.

Furthermore, a plurality of elastic strips are fixed on the opposite inner side surfaces of the two clamping pieces in parallel; the elastic strip is used for improving the locking and positioning effects of the clamping pieces on the photovoltaic cell panel.

The invention has the following beneficial effects:

according to the invention, the pair of caissons is arranged below the supporting frame, the floating body is arranged above the supporting frame, the position of the caissons and the floating body is respectively locked by the positioning sheets and the positioning sleeves on the first positioning column and the second positioning column, and the photovoltaic cell panel is firmly arranged on the bearing frame by the clamping piece, so that the structure design is simple and reasonable, the installation is convenient, the installation stability of the photovoltaic cell panel is effectively improved, the problems that the structure of the traditional floating photovoltaic cell panel assembly is scattered when encountering stormy waves are avoided, and the market application value is higher.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of a floating photovoltaic panel mounting assembly based on modularity according to the present invention;

FIG. 2 is a front view of the structure of FIG. 1;

FIG. 3 is a schematic structural view of the floating carrier of the present invention;

FIG. 4 is a front view of the structure of FIG. 3;

FIG. 5 is a schematic structural view of the receiving rack of the present invention;

FIG. 6 is a schematic view of the structure of the clamping member of the present invention;

FIG. 7 is a schematic view of a photovoltaic panel mounted on a floating carrier;

in the drawings, the components represented by the respective reference numerals are listed below:

1-supporting frame, 2-connecting rod, 3-connecting sleeve, 4-elastic connecting ring, 5-floating body, 6-caisson, 7-first positioning column, 8-second positioning column, 9-positioning piece, 10-positioning sleeve, 11-bearing frame, 12-clamping piece, 13-limiting column, 14-fastening sleeve, 15-tensioning spring, 16-, photovoltaic cell panel 1101-bayonet structure, 1201-supporting column, 1202-clamping piece, 1203-locking sleeve and 1204-elastic strip.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention is a floating photovoltaic panel mounting assembly based on modularization, including a plurality of floating carriers; the floating carrier comprises a support frame 1; the supporting frame 1 is provided with three frame openings; a plurality of connecting rods 2 are fixedly inserted in parallel on the supporting frame 1; both ends of the connecting rod 2 are rotatably connected with a connecting sleeve 3; one connecting sleeve 3 of one floating carrier is connected with the other corresponding connecting sleeve 3 on the other floating carrier through an elastic connecting ring 4; the elastic connecting ring 4 is a waist-shaped ring; the elastic connecting ring 4 is movably connected with the connecting sleeve 3;

a floating body 5 is arranged above the supporting frame 1; the floating body 5 is arranged at the frame opening in the middle of the support frame 1; a caisson 6 is arranged on each of the opposite sides of the floating body 5; the two caissons 6 are respectively arranged at the frame openings at the two ends of the supporting frame 1; the caisson 6 is arranged below the support frame 1; a pair of first positioning columns 7 is vertically arranged on the separated sides of the two caissons 6; the first positioning column 7 is vertically inserted in the supporting frame 1; the first positioning column 7 is in threaded fit with the support frame 1; the first positioning column 7 is arranged at the edge of the caisson 6;

four edges of the floating body 5 are vertically provided with a second positioning column 8; the second positioning column 8 is vertically inserted on the supporting frame 2; the second positioning column 8 is in threaded fit with the supporting frame 2; the upper end and the lower end of the second positioning column 8 and the lower end of the first positioning column 7 are both provided with a positioning sheet 9 and a positioning sleeve 10; the positioning sheet 9 is in clearance fit with the first positioning column 7 and the second positioning column 8; the positioning sleeve 10 is in threaded fit with the first positioning column 7 and the second positioning column 8; a pair of limiting columns 13 are vertically inserted into one surface of the positioning sheet 9; the two limit columns 13 are respectively arranged on two sides of the edge of the caisson 6 or two sides of the edge of the floating body 5; the limiting column 13 is in threaded fit with the positioning sheet 9; the outer wall of the limit column 13 is matched with the outer side wall of the floating body 5 or the outer side wall of the caisson 6;

a positioning piece 9 positioned at the lower end of the first positioning column 7 clamps and positions the caisson 6, so that the caisson 6 is firmly arranged on the supporting frame 1, and the position of the positioning piece 9 is locked through a positioning sleeve 10; the floating body 5 is clamped and positioned by a positioning sheet 9 positioned at the upper end of the second positioning column 8, so that the floating body 5 is firmly arranged on the supporting frame 1, and the position of the positioning sheet 9 is locked by a positioning sleeve 10; a positioning sheet 9 positioned at the lower end of the second positioning column 8 clamps and positions the caisson 6, so that the caisson 6 is firmly installed on the supporting frame 1, and the position of the positioning sheet 9 is locked through a positioning sleeve 10;

a pair of bearing frames 11 corresponding to the first positioning columns 7 are arranged on one opposite sides of the floating body 5; the bearing frame 11 is arranged on the upper end part of the first positioning column 7; the support frame 11 is provided with a pair of clamping members 12 for clamping the photovoltaic cells side by side.

Wherein, the bearing frame 11 comprises a horizontal section and an inclined section; the horizontal section is arranged above the inclined section; a V-shaped structure is formed between the horizontal section and the inclined section; the horizontal section and the inclined section are provided with free ends; the free end is sleeved on the periphery of the first positioning column 7; a branch section corresponding to the second positioning column 8 is arranged on the inclined section; the branch section, the horizontal section and the inclined section are of an integrally formed structure; the branch section has a bayonet configuration 1101; the bayonet structure 1101 is semi-circular; the bayonet structure 1101 is clamped on the upper end part of the second positioning column 8; a pair of fastening sleeves 14 are matched with the upper end of the first positioning column 7 in a threaded manner; the fastening sleeve 14 is in threaded fit with the first positioning column 7; a fastening sleeve 14 is arranged between the two free ends, and the fastening sleeve 14 locks and limits the free end below the fastening sleeve; the other fastening sleeve 14 is arranged above the horizontal section, and the fastening sleeve 14 limits the horizontal section; a tension spring 15 is sleeved at the upper end part of the first positioning column 7; the tension spring 15 is arranged between the two free ends; the upper end of the tension spring 15 abuts against a free end, and the lower end abuts against the upper end face of a fastening sleeve 14.

Wherein the clamp 12 comprises a support column 1201; the supporting column 1201 is vertically inserted into the upper part of the bearing frame 11; the two ends of the supporting column 1201 are sleeved with a clamping sheet 1202 and a locking sleeve 1203 which are in a T-shaped structure; the locking sleeve 1203 is in threaded fit with the supporting column 1201; when the photovoltaic cell panel is installed, the two clamping pieces 1202 are respectively arranged on the upper side and the lower side of the photovoltaic cell panel and used for locking and positioning the photovoltaic cell panel, and the clamping pieces 1202 are locked by the locking sleeves 1203; a plurality of elastic strips 1204 are fixed on the opposite inner side surfaces of the two clamping sheets 1202 in parallel; the elastic strip 1204 is used for improving the locking and positioning effect of the clamping piece 1202 on the photovoltaic cell panel.

As shown in fig. 7, the photovoltaic panel is mounted on the floating carrier by means of clamps 12.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A modularly based floating photovoltaic panel mounting assembly comprising a plurality of floating carriers; the method is characterized in that:

the floating carrier comprises a support frame (1); a plurality of connecting rods (2) are inserted in the supporting frame (1) in parallel; both ends of the connecting rod (2) are rotatably connected with a connecting sleeve (3);

one connecting sleeve (3) of one floating carrier is connected with the other corresponding connecting sleeve (3) on the other floating carrier through an elastic connecting ring (4);

a floating body (5) is arranged above the supporting frame (1); a caisson (6) is arranged on each of the opposite sides of the floating body (5); the caisson (6) is arranged below the supporting frame (1);

a pair of first positioning columns (7) is vertically arranged on the separated sides of the two caissons (6); the first positioning column (7) is vertically inserted into the supporting frame (1);

four edges and corners of the floating body (5) are vertically provided with second positioning columns (8); the second positioning column (8) is vertically inserted in the supporting frame (2);

the upper end and the lower end of the second positioning column (8) and the lower end of the first positioning column (7) are respectively provided with a positioning sheet (9) and a positioning sleeve (10);

a positioning piece (9) positioned at the lower end of the first positioning column (7) clamps and positions the caisson (6), and the position of the positioning piece (9) is locked through the positioning sleeve (10);

a positioning sheet (9) positioned at the upper end of the second positioning column (8) clamps and positions the floating body (5), and the position of the positioning sheet (9) is locked through the positioning sleeve (10);

a positioning sheet (9) positioned at the lower end of the second positioning column (8) clamps and positions the caisson (6), and the position of the positioning sheet (9) is locked through the positioning sleeve (10);

a pair of bearing frames (11) corresponding to the first positioning columns (7) are arranged on one opposite sides of the floating body (5); the bearing frame (11) is arranged on the upper end part of the first positioning column (7); the bearing frame (11) is provided with at least one clamping piece (12) for clamping the photovoltaic cell.

2. The floating photovoltaic panel mounting assembly based on modularization of claim 1, wherein a pair of limiting columns (13) is vertically inserted into one surface of the positioning piece (9); the limiting column (13) is in threaded fit with the positioning sheet (9); the outer wall of the limit column (13) is matched with the outer side wall of the floating body (5) or the outer side wall of the caisson (6).

3. A modular based floating photovoltaic panel mounting assembly according to claim 1 or 2, wherein the receiving rack (11) comprises a horizontal section and an inclined section; the horizontal section is arranged above the inclined section; the horizontal section and the inclined section are provided with free ends; the free end is sleeved on the periphery of the first positioning column (7).

4. A floating photovoltaic panel mounting assembly based on modularity according to claim 3 characterised in that said inclined section is provided with a branch section corresponding to the second positioning post (8); the branch section has a bayonet structure (1101); the bayonet structure (1101) is clamped on the upper end part of the second positioning column (8).

5. The modular based floating photovoltaic panel mounting assembly according to claim 4, wherein the upper end of the first positioning post (7) is screw fitted with a pair of fastening sleeves (14); the fastening sleeve (14) is arranged between the two free ends, and the fastening sleeve (14) locks and limits the free end below the fastening sleeve; the other fastening sleeve (14) is arranged above the horizontal section, and the fastening sleeve (14) limits the horizontal section.

6. A floating photovoltaic panel mounting assembly, based on modularity, according to claims 3 or 4, characterised in that the upper end of the first positioning post (7) is sleeved with a tensioning spring (15); the tension spring (15) is arranged between the two free ends.

7. A modular based floating photovoltaic panel mounting assembly according to claim 1, wherein the clip (12) comprises a support post (1201); the supporting column (1201) is vertically inserted into the upper part of the bearing frame (11); both ends of the supporting column (1201) are sleeved with a clamping sheet (1202) and a locking sleeve (1203); when the photovoltaic cell panel is installed, the two clamping pieces (1202) are respectively arranged on the upper side and the lower side of the photovoltaic cell panel and used for locking and positioning the photovoltaic cell panel, and the clamping pieces (1202) are locked in position through the locking sleeves (1203).

8. The floating photovoltaic panel mounting assembly based on modularization of claim 7, wherein a plurality of elastic strips (1204) are fixed side by side on opposite inner side surfaces of the two clamping pieces (1202); the elastic strip (1204) is used for improving the locking and positioning effects of the clamping sheet (1202) on the photovoltaic cell panel.