CN208046529U - Dip-adjustable type roof photovoltaic bracket - Google Patents

Abstract

The utility model discloses dip-adjustable type roof photovoltaic brackets, include the frame of photovoltaic module, and frame is connected to by tilt adjustment component on photovoltaic module face to be installed；Tilt adjustment component includes frame bottom frame adjusting part and frame top frame adjusting part, frame bottom frame adjusting part is formed by first assembly and the second member hinges, frame top frame adjusting part is made of first assembly, the second component and third component, and third component both ends are respectively articulated with first assembly and the second component；The shape of first assembly is adapted with the ridge tile shape of color steel tile, and first assembly is used to be mounted on ridge tiles or is fixedly connected with frame by connector；Second component includes mounting plane, and mounting plane by connector with frame for being fixedly connected or for mounted on the photovoltaic module face to be installed in plane.The photovoltaic bracket tilt adjustable of the utility model, wide adaptability, and tilt adjustment component both ends interchangeable are to adapt to different mounting surfaces.

Description

Dip-adjustable type roof photovoltaic bracket

Technical field

The utility model is related to dip-adjustable type roof photovoltaic brackets.

Background technology

Photovoltaic is the abbreviation of solar photovoltaic generation system, is a kind of photovoltaic effect using solar cell semi-conducting material It answers, solar radiation energy is converted to a kind of new power generating system of electric energy.With the development of society, solar energy is as a kind of new The clean energy of type is valued by people and obtains compared with man-based development achievement gradually.

Or major part photovoltaic bracket is arranged in parallel with roofing or is multiplied by inclination angle arrangement, rare inclination angle with roofing at present Adjustable photovoltaic bracket is often directed to specific mounting surface even if having, and the tilt adjustable photovoltaic bracket of different mounting surfaces needs to be equipped with Different adjusting foot components, adaptability is not wide.

Utility model content

The purpose of this utility model is that overcoming defect existing in the prior art, dip-adjustable type roof photovoltaic is provided Holder, wide adaptability, and can be suitably used for different mounting surfaces.

To achieve the above object, the technical solution of the utility model is design dip-adjustable type roof photovoltaic bracket, including The frame of photovoltaic module, frame are connected to by tilt adjustment component on photovoltaic module face to be installed；Tilt adjustment component Including frame bottom frame adjusting part and frame top frame adjusting part, frame bottom frame adjusting part is by first assembly and second Member hinges form, and frame top frame adjusting part is made of first assembly, the second component and third component, third component both ends It is respectively articulated with first assembly and the second component；The shape of first assembly is adapted with the ridge tile shape of color steel tile, and first assembly is used It is fixedly connected on ridge tiles or by connector with frame；Second component includes mounting plane, and mounting plane is used for It is fixedly connected with frame by connector or for mounted on the photovoltaic module face to be installed in plane.Mounting plane can be with It is mounted on the photovoltaic module face to be installed in plane by screw rod；Frame is rectangular, is made of several rectangle frames, guide rail It is arranged in parallel with the top frame or bottom frame of frame, guide rail is bolted on the frame side (referring to non-bottom frame and top frame) of frame On.When installing roofing as the color steel tile then using first assembly as the bottom of entire photovoltaic module, for installation On ridge tiles, the second component is fixedly connected by connector with frame at this time；Pacify as high-rise roof when in face of plane When filling roofing, then using the second component as the bottom of entire photovoltaic module, on planar roofing, therefore this Photovoltaic bracket can be realized by exchanging first assembly and the second component and adapt to different installation roofings so that the light of this tilt adjustable Different installation roofings can be used in by lying prostrate holder, improve the applicability of this photovoltaic bracket.Its tilt adjustable of this photovoltaic bracket, needle Best inclination angle can be selected to maximize the light of photovoltaic panel when mounted different zones, the difference of Various Seasonal light conditions Photoelectric transformation efficiency.

Further technical solution is that first assembly includes two pieces of jig plates being bolted connection, two pieces of fixtures One end of plate is symmetrical arranged and is formed the adaptation shape for clamping ridge tiles, and the other end is tabular, the first hinge hole is arranged thereon. Such setting is to be able on the ridge tiles of color steel roofing.

Further technical solution is that the second component is made of one piece of bottom plate and two pieces with the vertically disposed tablet of bottom plate, It is equipped with spacing between two pieces of tablets and is integrally formed with bottom plate, the second hinge hole is arranged in the corresponding position of two pieces of tablets；The installation Plane is the bottom surface of bottom plate.The such setting of second component is to be able on the installation roofing of plane.

Further technical solution is the rectangular housing shape of third component, and surface is arranged one respectively at two close end Third hinge hole.

Further technical solution is that the spacing between two pieces of tablets is more than or equal to the tablet of its two pieces of jig plates of first assembly Spacing between the thickness of shape end or two pieces of tablets is equal to the thickness of third component.It is used for the second component and first assembly in this way Hinged or being hinged for the second component and third component.

Further technical solution is that tilt adjustment component is connected by guide rail with frame.

Further technical solution is that mounting hole is arranged on bottom plate；Mounting hole makes the second component install for installing stud On the photovoltaic module face to be installed in plane or mounting hole by bolt with guide rail for being connected；Two pieces of jig plates and ridge Guide rail connecting hole is set on the part of watt shape adaptation, the bolt hole being adapted to guide rail connecting hole is set on guide rail.

The advantages of the utility model and advantageous effect are：The photovoltaic bracket tilt adjustable of the utility model, wide adaptability, And tilt adjustment component both ends interchangeable is to adapt to different mounting surfaces.This photovoltaic bracket is by exchanging first assembly and the second component It can be realized and adapt to different installation roofings so that the photovoltaic bracket of this tilt adjustable can be used in different installation roofings, improve The applicability of this photovoltaic bracket.Its tilt adjustable of this photovoltaic bracket, for different zones, the difference of Various Seasonal light conditions Best inclination angle can be selected to maximize the photoelectric conversion efficiency of photovoltaic panel when mounted.

Description of the drawings

Fig. 1 is the schematic diagram of the utility model dip-adjustable type roof photovoltaic bracket embodiment one；

Fig. 2 is that the vertical view of Fig. 1 rotates clockwise the schematic diagram after 90 °；

Fig. 3 is the enlarged diagram of frame bottom frame adjusting part in Fig. 1；

Fig. 4 is the enlarged diagram of first assembly in Fig. 3；

Fig. 5 is the enlarged diagram of frame top frame adjusting part in Fig. 1；

Fig. 6 is the enlarged diagram of third component in Fig. 5；

Fig. 7 is the enlarged diagram of the second component in Fig. 1；

Fig. 8 is that the side view of the second component in Fig. 7 rotates clockwise the schematic diagram after 180 °；

Fig. 9 is the schematic diagram of the utility model embodiment two；

Figure 10 is that the vertical view of Fig. 9 rotates clockwise the schematic diagram after 90 °；

Figure 11 is the enlarged diagram of frame top frame adjusting part in Fig. 9；

Figure 12 is the enlarged diagram of the second component in Figure 11；

Figure 13 is the enlarged diagram of first assembly in Figure 11；

Figure 14 is the enlarged diagram of Figure 11 middle guides.

In figure：1, frame；2, photovoltaic module face to be installed；3, frame bottom frame adjusting part；4, frame top frame tune Save component；5, first assembly；6, the second component；7, third component；8, bolt；9, jig plate；10, the first hinge hole；11, bottom Plate；12, tablet；13, the second hinge hole；14, third hinge hole；15, guide rail；16, mounting hole；17, stud；18, guide rail connects Hole；19, bolt hole.

Specific implementation mode

With reference to the accompanying drawings and examples, specific embodiment of the present utility model is further described.Implement below Example is only used for clearly illustrating the technical solution of the utility model, and the protection model of the utility model cannot be limited with this It encloses.

Embodiment one：

As shown in Figures 1 to 8, the utility model is dip-adjustable type roof photovoltaic bracket, includes the frame of photovoltaic module Frame 1, frame 1 are connected to by tilt adjustment component on photovoltaic module face 2 to be installed；Tilt adjustment component includes frame bottom Frame adjusting part 3 and frame top frame adjusting part 4, frame bottom frame adjusting part 3 are cut with scissors by first assembly 5 and the second component 6 It connects, frame top frame adjusting part 4 is made of first assembly 5, the second component 6 and third component 7,7 both ends of third component It is respectively articulated with first assembly 5 and the second component 6；The shape of first assembly 5 is adapted with the ridge tile shape of color steel tile, first assembly 5 for being mounted on ridge tiles；Second component 6 includes mounting plane, and mounting plane, which is used to fix with frame 1 by connector, to be connected It connects.First assembly 5 includes two pieces of jig plates 9 being fastenedly connected by bolt 8, and one end of two pieces of jig plates 9 is symmetrical arranged and shape At the adaptation shape for clamping ridge tiles, the other end is tabular, the first hinge hole 10 is arranged thereon.Second component 6 is by one piece of bottom plate 11 and two pieces constituted with 11 vertically disposed tablet 12 of bottom plate, spacing is equipped between two pieces of tablets 12 and is integrally formed with bottom plate 11, The second hinge hole 13 is arranged in the corresponding position of two pieces of tablets 12；The mounting plane is the bottom surface of bottom plate 11.Third component 7 is in square A third hinge hole 14 is arranged at two close end in shape housing shape, surface respectively.Spacing between two pieces of tablets 12 is more than or equal to Spacing between the thickness or two pieces of tablets 12 of the tabular end of its two pieces of jig plates 9 of first assembly 5 is equal to third component 7 Thickness.Tilt adjustment component is connected by guide rail 15 with frame 1.Mounting hole 16 is set on bottom plate 11；Mounting hole 16 is for leading to Bolt 8 is crossed with guide rail 15 to be connected.

Embodiment two：

It is with the difference of embodiment one, as shown in Fig. 9 to Figure 14, first assembly 5 is fixed by connector and frame 1 Connection；Second component 6 includes mounting plane, and mounting plane is used to be mounted on the photovoltaic module face 2 to be installed in plane.Installation Hole 16, which is used to install stud 17, makes the second component 6 be mounted on the photovoltaic module face 2 to be installed in plane；Two pieces of jig plates 9 Guide rail connecting hole 18 is set on the part being adapted to ridge tile shape, the bolt hole being adapted to guide rail connecting hole 18 is set on guide rail 15 19。

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without deviating from the technical principle of the utility model, several improvements and modifications can also be made, these change The scope of protection of the utility model is also should be regarded as into retouching.

Claims (7)

1. dip-adjustable type roof photovoltaic bracket, which is characterized in that the frame including photovoltaic module, frame pass through inclination angle tune Section component is connected on photovoltaic module face to be installed；Tilt adjustment component includes frame bottom frame adjusting part and frame top frame Adjusting part, frame bottom frame adjusting part are formed by first assembly and the second member hinges, frame top frame adjusting part by First assembly, the second component and third component are constituted, and third component both ends are respectively articulated with first assembly and the second component；First group The shape of part is adapted with the ridge tile shape of color steel tile, and first assembly is used to being mounted on ridge tiles or passing through connector and frame It is fixedly connected；Second component includes mounting plane, and mounting plane by connector with frame for being fixedly connected or for pacifying On the photovoltaic module face to be installed in plane.

2. dip-adjustable type roof as described in claim 1 photovoltaic bracket, which is characterized in that the first assembly includes two pieces One end of the jig plate being bolted connection, two pieces of jig plates is symmetrical arranged and forms the adaptation shape for clamping ridge tiles, separately One end is tabular, the first hinge hole is arranged thereon.

3. dip-adjustable type roof as claimed in claim 2 photovoltaic bracket, which is characterized in that second component is by one piece of bottom Plate and two pieces are constituted with the vertically disposed tablet of bottom plate, and spacing is equipped between two pieces of tablets and is integrally formed with bottom plate, two pieces of tablets Corresponding position be arranged the second hinge hole；The mounting plane is the bottom surface of bottom plate.

4. dip-adjustable type roof as claimed in claim 3 photovoltaic bracket, which is characterized in that the rectangular shell of third component A third hinge hole is arranged at two close end in body shape, surface respectively.

5. dip-adjustable type roof as claimed in claim 4 photovoltaic bracket, which is characterized in that the spacing between two pieces of tablets It is equal to third component more than or equal to the spacing between the thickness or two pieces of tablets of the tabular end of first assembly its two pieces of jig plates Thickness.

6. dip-adjustable type roof as claimed in claim 5 photovoltaic bracket, which is characterized in that the tilt adjustment component passes through Guide rail is connected with frame.

7. dip-adjustable type roof as claimed in claim 6 photovoltaic bracket, which is characterized in that installation is arranged on the bottom plate Hole；Mounting hole, which is used to install stud, makes the second component be used for mounted in the photovoltaic module face to be installed or mounting hole of plane It is connected with guide rail by bolt；Guide rail connecting hole is set on the part of two pieces of jig plates being adapted to ridge tile shape, is set on guide rail Set the bolt hole being adapted to guide rail connecting hole.