CN217849335U - Solar panel mounting and connecting assembly - Google Patents

Abstract

Solar panel erection joint subassembly belongs to solar energy equipment technical field, is connected by panel, encapsulation frame, checkpost, jack catch, retaining member and fastener and constitutes, jack catch and installation roof beam fixed connection, and the jack catch cladding is outside at the checkpost, realizes two adjacent solar panel's connection, through the inside retaining member of checkpost, realizes two adjacent solar panel's locking connection, compares with current solar connection structure, the utility model discloses novel structure, the installation is dismantled conveniently, can install solar panel by a large scale fast, and installation stability is good, has further improved installation and maintenance efficiency.

Description

Solar panel mounting and connecting assembly

Technical Field

The utility model belongs to the technical field of solar facilities, a solar panel erection joint subassembly is related to, specific coupling assembling that mutual fastening connects when being used for the installation of large tracts of land solar panel that says so.

Background

The solar power generation refers to a novel power generation mode which adopts a solar panel to absorb sunlight and converts the solar energy into electric energy through a photoelectric conversion layer of the solar panel. Compared with the traditional thermal power, electric power and hydroelectric power generation, the solar energy power generation is a novel renewable solar energy source, and is favored due to a series of advantages of high efficiency, stability, environmental protection, no pollution, less production and construction investment and the like. And can be widely applied to daily life and industrial production.

At present, solar power generation is effectively combined with buildings, a solar photovoltaic power generation square matrix is installed on the buildings to provide power, the solar photovoltaic power generation square matrix has the advantages of energy conservation, environmental protection, no land occupation and the like, solar energy is absorbed by the photovoltaic array and converted into electric energy, the outdoor comprehensive temperature is greatly reduced, the wall body heat gain and the indoor air conditioner cold load are reduced, and therefore the building energy-saving effect is achieved. Because the combination of the photovoltaic square matrix and the building does not occupy extra ground space, the photovoltaic square matrix is the best installation mode for the wide application of the photovoltaic power generation system in cities, such as a photovoltaic tile roof, a photovoltaic curtain wall, a photovoltaic daylighting roof and the like. However, the existing photovoltaic array is usually fixedly connected with a roof structural member or a crossbeam through a plurality of cross beams, longitudinal beams and connecting pieces, the mounting structure is complex, the connection stability is to be improved, especially the mounting process of a large-area solar panel is very complicated, the mounting and the dismounting are not easy, and the later-period replacement or maintenance is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims at present roofing solar panel mounting structure is comparatively complicated, and connection stability remains to be improved, especially very loaded down with trivial details to the solar panel installation of large tracts of land, is difficult to the installation and dismantles, is unfavorable for that the later stage is changed or maintenance etc. is not enough, proposes solar panel erection joint subassembly, is favorable to large tracts of land solar panel's installation and dismantlement to further improve and connect stability can, improve installation and maintenance efficiency.

The technical scheme of the utility model: the solar panel mounting and connecting assembly comprises a mounting beam, a panel and a packaging frame arranged at the bottom of the panel; the method is characterized in that: solar panel erection joint subassembly includes:

the clips are connected and arranged on two sides of the bottom of the panel, and gaps are formed between the clips and two side surfaces of the packaging frame;

the clamping jaw consists of a supporting part and a fixing part, the supporting part is clamped in a gap formed by the clamp and the packaging frame, and the fixing part is fixedly connected with the mounting beam;

the locking part consists of a positioning column and a locking rod, and the whole locking part is arranged between the clips of two adjacent panels;

the fastener, the fastener is connected and is set up the top of retaining member, under the fastening of fastener, drive the retaining member and shift up in two checkposts are inside, make the checkpost outwards strut the tight jack catch in top to make two adjacent solar panel form fastening connection.

Preferably, open slots are respectively arranged on two sides of the top surface of the panel, and the fasteners are connected and arranged in the open slots after the two adjacent solar panels are spliced.

Preferably, two side surfaces of the packaging frame are inclined surfaces, and an included angle formed by the inclined surfaces and a vertical plane is not less than 15 degrees.

Preferably, the clips are of thin-wall bearing bush structures, the circle center wrap angle of each clip is smaller than 120 degrees, and the opening directions of the clips on the two sides of each solar panel are arranged outwards.

Preferably, the retaining member comprises reference column and check lock lever, and the check lock lever is arranged in the top of reference column, and the check lock lever top is equipped with the screw thread blind hole that is used for connecting the fastener.

Preferably, reference column and check lock lever are the cylinder, and the check lock lever is connected with the reference column and is formed T style of calligraphy structure, and the axis of check lock lever is mutually perpendicular with the axis of reference column promptly.

Preferably, the diameter of the positioning column is larger than that of the locking rod, and the curvature radius of the positioning column is smaller than that of the clamp.

Preferably, the jack catch is the Y type structure that supporting part and fixed part are constituteed, and the inner wall of supporting part is the arc surface, and the radius of curvature of supporting part arc surface is the same with the radius of curvature of checkpost, and the arc surface cornerite is greater than the centre of a circle cornerite of checkpost.

The utility model has the advantages that: the utility model provides a solar panel erection joint subassembly is connected by panel, encapsulation frame, checkpost, jack catch, retaining member and fastener and constitutes, jack catch and installation roof beam fixed connection, and the jack catch cladding is outside at the checkpost, realizes two adjacent solar panel's connection, through the inside retaining member of checkpost, realizes two adjacent solar panel's locking connection, compares with current solar connection structure, the utility model discloses novel structure, the installation is dismantled conveniently, can install fast large tracts of land solar panel, and installation stability is good, has further improved installation and maintenance efficiency.

Drawings

Fig. 1 is the structural schematic diagram of the solar panel of the present invention.

Fig. 2 is the utility model discloses well coupling assembling and solar panel integrated configuration sketch.

Fig. 3 is a schematic structural view of the locking member of the present invention.

Fig. 4 is a schematic view of the structure of the middle jaw of the present invention.

In the figure: the panel comprises a panel 1, a packaging frame 2, a clamp 3, an inclined plane 4, an open slot 5, a mounting beam 6, a clamping claw 7, a supporting part 7-1, a fixing part 7-2, a locking part 8, a positioning column 8-1, a locking rod 8-2, a gasket 9 and a fastener 10.

Detailed Description

The present invention will be further clarified by the following description in conjunction with the accompanying drawings, which are to be understood as illustrative only and not limiting the scope of the invention, and the modifications of the various equivalent forms of the invention, which are made by those skilled in the art after reading the present invention, fall within the scope defined by the appended claims.

Example 1

As shown in fig. 1-4, the solar panel mounting and connecting assembly is formed by connecting a panel 1, a packaging frame 2, clips 3, a mounting beam 6, a jaw 7, a locking member 8 and a fastener 10, wherein the clips 3 are connected and arranged at two sides of the bottom of the panel 1, and a gap is formed between each clip 3 and two side surfaces of the packaging frame 2; the clamping jaw 7 consists of a supporting part 7-1 and a fixing part 7-2, the supporting part 7-1 is clamped in a gap formed by the clamp 3 and the packaging frame 2, and the fixing part 7-2 is fixedly connected with the mounting beam 6; the locking part 8 consists of a positioning column 8-1 and a locking rod 8-2, and the whole locking part 8 is arranged between the clips 3 of two adjacent panels; the fastener 10 is connected and arranged above the locking part 8, and under the fastening action of the fastener 10, the locking part 8 is driven to move upwards inside the two clips 3, so that the clips 3 are outwards expanded to jack the clamping jaw 7, and thus, two adjacent solar panels are fastened and connected.

Example 2

Different from the embodiment 1, as shown in fig. 1-2, the two sides of the top surface of the panel 1 are respectively provided with an open slot 5, and the fastening member 10 is connected and arranged in the open slot 5 after the two adjacent solar panels are spliced. The both sides face of encapsulation frame 2 is inclined plane 4, and the contained angle that inclined plane 4 and plumb face formed is not less than 15, does benefit to jack catch 7 through the setting on inclined plane 4 and leads and realize quick cladding to the checkpost 3 outside, does benefit to the quick joint of jack catch 7 and checkpost 3. Checkpost 3 is thin wall axle bush structure, and the centre of a circle cornerite of checkpost 3 is less than 120, and 3 opening directions of checkpost of every solar panel both sides all set up outwards.

Example 3

Different from the embodiment 2, as shown in fig. 3-4, the locking member 8 is composed of a positioning column 8-1 and a locking rod 8-2, the locking rod 8-2 is disposed above the positioning column 8-1, and the top end of the locking rod 8-2 is provided with a threaded blind hole for connecting the fastening member 10. The positioning column 8-1 and the locking rod 8-2 are both cylinders, and the locking rod 8-2 is connected with the positioning column 8-1 to form a T-shaped structure, namely the axis of the locking rod 8-2 is perpendicular to the axis of the positioning column 8-1. The diameter of the positioning column 8-1 is larger than that of the locking rod 8-2, and the curvature radius of the positioning column 8-1 is smaller than that of the clamp 3. The claw 7 is of a Y-shaped structure consisting of a supporting part 7-1 and a fixing part 7-2, the inner wall of the supporting part 7-1 is an arc surface, the curvature radius of the arc surface of the supporting part 7-1 is the same as that of the clip 3, and the wrap angle of the arc surface is larger than that of the circle center of the clip 3.

As shown in fig. 1-4, the method of using the solar panel mounting and connecting assembly is as follows: the clamping jaw is screwed on the mounting beam firstly, the clamping jaw is connected and fixed with the mounting beam, two adjacent solar panels are aligned, the locking part is arranged between two opposite clamps, namely, the locking part is clamped between the two clamps, the clamps are arranged in the clamping jaw, the clamping jaw is wrapped outside the clamps, the gasket is arranged in the clamping groove at the joint of the two adjacent solar panels, the fastener penetrates through the gasket and is tightly connected with the locking rod on the locking part, under the fastening action of the fastener, the locking part is driven to move upwards inside the two clamps, the clamping jaw is enabled to be outwards propped open, and therefore the locking connection of the two adjacent solar panels is achieved.

Claims (8)

1. The solar panel mounting and connecting assembly comprises a mounting beam (6), a panel (1) and a packaging frame (2) arranged at the bottom of the panel (1); the method is characterized in that: solar panel installation coupling assembling includes:

the clips (3) are connected and arranged on two sides of the bottom of the panel (1), and gaps are formed between the clips (3) and two side faces of the packaging frame (2);

the clamping jaw (7), the clamping jaw (7) is composed of a supporting part (7-1) and a fixing part (7-2), the supporting part (7-1) is clamped in a gap formed by the clamp (3) and the packaging frame (2), and the fixing part (7-2) is fixedly connected with the mounting beam (6);

the locking part (8) is composed of a positioning column (8-1) and a locking rod (8-2), and the whole locking part (8) is arranged between the clips (3) of two adjacent panels;

fastener (10), fastener (10) are connected and are set up the top of retaining member (8), under the fastening of fastener (10), drive retaining member (8) and shift up in two checkposts (3) are inside, make checkpost (3) outwards strut and push up jack catch (7) to make two adjacent solar panel form fastening connection.

2. The solar panel mounting connection assembly of claim 1, wherein: open slots (5) are respectively arranged on two sides of the top surface of the panel (1), and the fasteners (10) are connected and arranged in the open slots (5) formed after the two adjacent solar panels are spliced.

3. The solar panel mounting connection assembly of claim 1, wherein: two side surfaces of the packaging frame (2) are inclined surfaces (4), and an included angle formed by the inclined surfaces (4) and a vertical plane is not less than 15 degrees.

4. The solar panel mounting connection assembly of claim 1, wherein: the clips (3) are of thin-wall bearing bush structures, the circle center wrap angle of the clips (3) is smaller than 120 degrees, and the opening directions of the clips (3) on two sides of each solar panel are arranged outwards.

5. The solar panel mounting connection assembly of claim 1, wherein: the locking piece (8) is composed of a positioning column (8-1) and a locking rod (8-2), the locking rod (8-2) is arranged above the positioning column (8-1), and a threaded blind hole for connecting the fastening piece (10) is formed in the top end of the locking rod (8-2).

6. The solar panel mounting connection assembly of claim 5, wherein: the positioning column (8-1) and the locking rod (8-2) are both cylinders, and the locking rod (8-2) is connected with the positioning column (8-1) to form a T-shaped structure, namely the axis of the locking rod (8-2) is perpendicular to the axis of the positioning column (8-1).

7. The solar panel mounting connection assembly of claim 6, wherein: the diameter of the positioning column (8-1) is larger than that of the locking rod (8-2), and the curvature radius of the positioning column (8-1) is smaller than that of the clamp (3).

8. The solar panel mounting connection assembly of claim 1, wherein: the clamping jaw (7) is of a Y-shaped structure consisting of a supporting part (7-1) and a fixing part (7-2), the inner wall of the supporting part (7-1) is an arc surface, the curvature radius of the arc surface of the supporting part (7-1) is the same as that of the clamp (3), and the wrap angle of the arc surface is larger than that of the circle center of the clamp (3).

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