CN209562491U - Photovoltaic component frame - Google Patents

Abstract

The disclosure provides a kind of photovoltaic component frame of light-duty drop sheet, is related to photovoltaic art.The specific technical proposal is: a kind of photovoltaic component frame, including frame main body, frame main body include roof, bottom wall and the side wall for connecting roof and bottom wall.Roof, bottom wall and side wall form the accommodation groove for accommodating photovoltaic laminate, and photovoltaic component frame further includes two mounting blocks for being set to the lengthwise both ends of frame main body, and mounting blocks are equipped with the corner code groove being open along longitudinally.The photovoltaic component frame of the utility model reduces the height of side wall and the width of bottom wall, and only remains necessary corner code groove, realizes the mitigation of photovoltaic component frame overall weight, it is lower that entire photovoltaic component frame becomes smaller, thinner, cost.

Description

Photovoltaic component frame

Technical field

The utility model relates to photovoltaic art more particularly to a kind of photovoltaic component frames.

Background technique

With the continuous social and economic development, environmental pollution increasingly aggravates, and people also increasingly increase the craving of clean energy resource Adding, solar energy is increasingly taken seriously as a kind of clean energy resource being widely present, in the development and utilization of solar energy, solar energy Photovoltaic module is one of the main tool using solar energy.

In recent years, solar photovoltaic assembly manufacturing started implementation industry depth optimization, and frame is carrying photovoltaic lamination The important component of part, in existing cost calculation, frame is the component after the cell piece cost, therefore frame is set again Meter is particularly important.For the photovoltaic module with frame, how to be reduced in the case where guaranteeing mechanical strength frame weight and Volume becomes the technology that those skilled in the art need to solve at present and asks to realize lighting and save photovoltaic module cost Topic.

Meanwhile existing photovoltaic module is during installation is to bracket, it usually needs more people carry and need more people It assembles simultaneously.I.e. when photovoltaic module is assembled to bracket, it is necessary first to which photovoltaic module is placed on bracket and is supported by someone Firmly then photovoltaic module needs someone to carry out calibration positioning to prevent photovoltaic module from sliding from bracket, and last other people need Photovoltaic module is fixed on bracket by modes such as rivetings.It is cooperation behaviour while needing more people with existing mounting means Make, so that mounting means becomes unusual cumbersomeization, complicates.

Utility model content

The purpose of this utility model is to provide a kind of photovoltaic component frames of light-duty drop sheet, with small in size, weight Gently, the effect of being easily installed with disassembly.

To achieve the above objectives, the present invention adopts the following technical solutions: a kind of photovoltaic component frame, including frame master Body, the frame main body include the side wall of roof, bottom wall and the connection roof and the bottom wall.The roof, the bottom wall Be collectively formed the accommodation groove for accommodating photovoltaic laminate with the side wall, the photovoltaic component frame further include be set to it is described The both ends of frame main body and two mounting blocks being located on the downside of the bottom wall, the mounting blocks are equipped with along the angle that longitudinally is open Code slot.

In a preferred embodiment, the photovoltaic component frame is divided into the long side that the photovoltaic laminate long side is arranged in Frame and the short frame that the photovoltaic laminate short side is set, and two long margin frames and two short frames enclose and are set as square The frame frame of shape.

In a preferred embodiment, the end of the photovoltaic component frame is oblique cut, and the long margin frame and institute The inclination angle of the oblique cut of short frame complementary angle each other is stated, when the long margin frame and the short frame are vertically connected to one another, institute Long margin frame is stated to be bonded each other with the oblique cut of the short frame.

In a preferred embodiment, the corner code groove is located in the mounting blocks of the photovoltaic component frame end and is used for Corner brace is installed, when the long margin frame and the short frame are connected to each other, the long margin frame is inserted at the both ends of the corner brace respectively In the corner code groove of the short frame end, two long margin frames and two short frames pass through four corner braces Connect into the frame frame of the rectangle.

In a preferred embodiment, the mounting blocks be provided with protruded out from its two sidewalls into the corner code groove it is raised Portion, the protrusion are used for the fixed corner brace of the clasp when the corner brace is inserted into the corner code groove.

In a preferred embodiment, photovoltaic module is collectively formed in the photovoltaic laminate and the frame frame, described Sliding groove structure is formed between the long margin frame of photovoltaic module or two mounting blocks of the short frame, the bracket is placed in institute It states in the sliding groove structure of photovoltaic module, so that photovoltaic module installation is supported on the bracket.

Compared with prior art, the utility model has the following beneficial effects: photovoltaic component frame further includes being set to side The both ends of frame main body and two mounting blocks being located on the downside of bottom wall, mounting blocks are equipped with the corner code groove being open along longitudinally.Relatively In conventional photovoltaic component frame, the photovoltaic component frame of the utility model reduces the height of side wall and the width of bottom wall, and And necessary corner code groove is only remained, the mitigation of photovoltaic component frame overall weight is realized, thus not reducing photovoltaic module side Entire photovoltaic component frame is made to become smaller, thinner, cost under the premise of the mechanical strength of frame lower.

Further, long margin frame is identical as the structure of short frame, and difference is: long margin frame is different from the length of short frame. Be it is changeable with the photovoltaic component frame in present embodiment, i.e., photovoltaic component frame can change in certain size, right The demand for answering different photovoltaic modulies forms various sizes of long margin frame and short frame, to cooperate different size of photovoltaic group Part, to promote the fitness of product.

Further, the tilt angle of the oblique cut of long margin frame and short frame complementary angle each other, ensure that adjacent long side The compactness for oblique cut fitting that frame is vertical with short frame when connecting.

Further, the two sidewalls of protrusion self installation block are protruded out into corner code groove, for being inserted into corner code groove in corner brace Clasp fixed corner code when middle.So set, making the photovoltaic component frame of the utility model in assembling, it is only necessary to which configuration is corresponding Corner brace can be mounted directly fixation, rivet without additional screw, easy for installation and escapable cost.

Further, photovoltaic component frame can accomplish that more easily installation photovoltaic component is fixed on bracket, with this Analogize, carried, for installation photovoltaic component compared to more people are needed now, this is to compare easily mounting means.

Further, the bottom wall of photovoltaic component frame can come into contact in a large area with bracket when photovoltaic module is installed, and increase power Structural strength is learned, so that using after a long time, if the middle briquetting aging of photovoltaic module, loosening will not influence photovoltaic module It is fixed, because upper can effectively contact with bracket below, anti-slip can be carried out by bracket.It is with the photovoltaic component frame It designs while cost is reduced, so that photovoltaic module easily facilitates installation and removal.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows and meets the utility model Embodiment, and be used to explain the principles of the present invention together with specification.

Fig. 1 is a kind of stereoscopic schematic diagram of photovoltaic component frame provided by the embodiment of the utility model；

Fig. 2 is the stereoscopic schematic diagram of another angle of photovoltaic component frame shown in FIG. 1；

Fig. 3 is the front view of photovoltaic component frame shown in FIG. 1；

Fig. 4 is the scheme of installation using the photovoltaic module of the utility model frame；

Fig. 5 is the installation detailed schematic using the photovoltaic module of the utility model frame.

Specific embodiment

The following describes the utility model in further detail with reference to the accompanying drawings, it is described be the explanation to the utility model and It is not to limit.

Shown in please referring to Fig.1 to Fig.3, the utility model discloses a kind of photovoltaic component frames 1, are an integral structure, After mold injection molding, it is manufactured using machining.Present embodiment is preferable embodiment, in other implementations In mode, which can also be made by way of mold extrusion forming.The photovoltaic component frame 1 includes vertical Long frame main body, frame main body include roof 2, bottom wall 3 and the side wall 4 for connecting roof 2 and bottom wall 3, and roof 2 and bottom wall 3 are set It sets in the two sides up and down of side wall 4, and the accommodating for accommodating photovoltaic laminate 20 is collectively formed in roof 2, bottom wall 3 and side wall 4 Slot 6.Photovoltaic component frame 1 further includes two mounting blocks 5 for being set to the lengthwise both ends of frame main body and being located at 3 downside of bottom wall, Mounting blocks 5 are equipped with the corner code groove 7 being open along longitudinally.

Relative to conventional photovoltaic component frame, the photovoltaic component frame 1 of the utility model reduces the height of side wall 4 With the width of bottom wall 3, and necessary corner code groove 7 is only remained, realizes the mitigation of 1 overall weight of photovoltaic component frame, thus Make under the premise of not reducing the mechanical strength of photovoltaic component frame 1 entire photovoltaic component frame 1 become it is smaller, thinner, at This is lower.

Bottom wall 3 is arranged in a mutually vertical manner with side wall 4, and roof 2 and bottom wall 3 are arranged in parallel, so that photovoltaic laminate 20 is steady Fixed is contained in accommodation groove 6.The end of photovoltaic component frame 1 is oblique cut, and its corresponding long margin frame 11 and short frame The tilt angle of 12 oblique cut complementary angle each other, oblique cut is bonded when ensure that the connection of two neighboring photovoltaic component frame 1 Compactness.

Corner code groove 7 is located in the mounting blocks of 1 end of photovoltaic component frame and for installing corner brace (not shown), and corner brace is used for Connect two adjacent photovoltaic component frames 1.Mounting blocks 5 are provided with the protrusion 8 protruded out from its two sidewalls into corner code groove 7, The protrusion 8 is used for the clasp fixed corner code when corner brace is inserted into corner code groove 7.So set, making the light of the utility model Module frame 1 is lied prostrate in assembling, it is only necessary to which fixation can be mounted directly by configuring corresponding corner brace, be riveted without additional screw, peace Fill convenient and escapable cost.There is no the design in terms of any hole in the utility model simultaneously, is just set without relevant large size yet Standby and manufacturing process reduces the production cost of photovoltaic component frame 1.

It please refers to shown in Fig. 4 to Fig. 5, photovoltaic component frame 1 divides that the long margin frame 11 of 20 long side of photovoltaic laminate is arranged in With the short frame 12 that 20 short side of photovoltaic laminate is arranged in, and two long margin frames 11 and two short frames 12 enclose the side for being set as rectangle Circle frame.The structure of long margin frame 11 is identical as the structure of short frame 12, and the difference of the two is: long margin frame 11 and short frame 12 Length is different.Photovoltaic component frame 1 in present embodiment is changeable, and corresponding corner code groove 7 is also changeable, i.e. photovoltaic group Part frame 1 can change in certain size, and the demand of corresponding different photovoltaic laminate 20 forms different long margin frames 11 With short frame 12, to cooperate different size of photovoltaic laminate 20, to promote the fitness of product.

Corner brace is used to connect adjacent long margin frame 11 and short frame 12, verticallys when long margin frame 11 with short frame 12 and connects When connecing, the both ends of corner brace are inserted into respectively in the corner code groove 7 of 12 end of long margin frame 11 and short frame, and long margin frame 11 and short frame 12 oblique cut is bonded each other, is to connect rectangular side by four corner braces with two short frames 12 with two root long frames 11 Circle frame.

Corner code groove 7 in present embodiment and be by the connection that is simply directly fixed between corner brace；Certainly, at it In his embodiment, other rivet arrangements, such as traditional screw can also be used between the corner code groove 7 and corner brace of mounting blocks 5 The riveting method etc. of nut, final purpose, which is provided to that corner brace can be effectively utilized, is fixed together long and short frame.

Photovoltaic module 30 is collectively formed in photovoltaic laminate 20 and frame frame, and photovoltaic module 30 is installed on the mode of bracket 40 It is as follows: photovoltaic module 30 to be placed on bracket 40 first, at this time two of the long margin frame 11 of photovoltaic module 30 or short frame 12 Sliding groove structure is formed between mounting blocks 5, bracket 40 is placed in the sliding groove structure of photovoltaic module 30, so that photovoltaic module 30 is pacified Dress is supported on bracket 40 and can horizontally slip on bracket 40；Then one can push photovoltaic module 30 and fix until reaching Point, then fixed strip 41 is loaded on the right side of photovoltaic module 30, to form the fixation to photovoltaic module 30.Which can accomplish More easily installation photovoltaic component 30 is fixed on bracket 40, and so on, it carries, install compared to more people are needed now For photovoltaic module 30, this is to compare easily mounting means.

The bottom wall 3 of photovoltaic component frame 1 can come into contact in a large area with bracket 40 when photovoltaic module 30 is installed simultaneously, increase power Structural strength is learned, so that using after a long time, if the middle briquetting aging of photovoltaic module 30, loosening will not influence photovoltaic module 30 fixation can carry out anti-slip by bracket 40 because upper can effectively contact with bracket 40 below.It is with the photovoltaic group The design of part frame 1 while cost is reduced so that photovoltaic module easily facilitates installation and removal.

Relative to conventional photovoltaic component frame, the photovoltaic component frame 1 of the utility model reduce the height of side wall with The width of bottom wall, and necessary corner code groove is only remained, the materials of photovoltaic component frame 1 are not only saved, photovoltaic module is reduced Cost, also achieve photovoltaic component frame overall weight mitigation, thus not reducing the mechanical strength of photovoltaic component frame 1 Under the premise of to make entire photovoltaic component frame 1 become smaller, thinner, cost lower.Simultaneously because the height and bottom wall of side wall The reduction of width, to improve the quantity of single transport, reduces fortune so that the photovoltaic module figure after assembled formation becomes smaller Defeated cost.

The above is only the preferred embodiment of the present invention, is not intended to limit the utility model, all practical at this Within novel spirit and principle, any modification, equivalent replacement, improvement and so on should be included in the guarantor of the utility model Within the scope of shield.

Claims (6)

1. a kind of photovoltaic component frame, including frame main body, the frame main body includes described in roof (2), bottom wall (3) and connection The side wall (4) of roof (2) and the bottom wall (3), which is characterized in that the roof (2), the bottom wall (3) and the side wall (4) Be collectively formed the accommodation groove (6) for accommodating photovoltaic laminate (20), the photovoltaic component frame (1) further include be set to it is described The both ends of frame main body and two mounting blocks (5) being located on the downside of the bottom wall (3), the mounting blocks (5) are equipped with along lengthwise side To the corner code groove (7) of opening.

2. photovoltaic component frame according to claim 1, which is characterized in that the photovoltaic component frame (1) is divided into setting The photovoltaic laminate (20) long side long margin frame (11) and setting the photovoltaic laminate (20) short side short frame (12), and two long margin frames (11) and two short frames (12) enclose the frame frame for being set as rectangle.

3. photovoltaic component frame according to claim 2, which is characterized in that the end of the photovoltaic component frame (1) is Oblique cut, and the inclination angle of the oblique cut of the long margin frame (11) and the short frame (12) complementary angle each other, when the length When frame (11) and the short frame (12) are vertically connected to one another, the long margin frame (11) and the inclination of the short frame (12) are cut Face is bonded each other.

4. photovoltaic component frame according to claim 2, which is characterized in that the corner code groove (7) is located at the photovoltaic group In the mounting blocks (5) of part frame (1) end and for installing corner brace, when the long margin frame (11) and the short frame (12) each other When connection, the corner code groove of the long margin frame (11) and the short frame (12) end is inserted at the both ends of the corner brace respectively (7) in, two long margin frames (11) and two short frames (12) connect into the rectangle by four corner braces Frame frame.

5. photovoltaic component frame according to claim 4, which is characterized in that the mounting blocks (5) are provided with from its two sides The protrusion (8) that wall is protruded out into the corner code groove (7), the protrusion (8) are used to be inserted into the corner brace in the corner brace Clasp fixed corner brace when in slot (7).

6. photovoltaic component frame according to claim 2, which is characterized in that the photovoltaic laminate (20) and the frame Frame is collectively formed photovoltaic module (30), and the photovoltaic module (30) is for being installed on a bracket (40), the photovoltaic module (30) sliding groove structure, the bracket are formed between two mounting blocks (5) of the long margin frame (11) or the short frame (12) (40) be placed in the sliding groove structure of the photovoltaic module (30) so that the photovoltaic module (30) installation be supported in it is described On bracket (40).