CN207910709U - Inverter mounting structure and photovoltaic board mount - Google Patents

Abstract

The utility model relates to an inverter installation structure and a photovoltaic panel bracket. The inverter installation structure includes a photovoltaic panel bracket and an inverter for photovoltaic panels to be installed. The photovoltaic panel bracket includes a vertical column, and the column is provided with a hoop and a The beam installed on the hoop for inverter installation, the beam includes a support angle steel for connecting with the hoop and an installation angle steel for inverter installation, the support angle steel and the installation angle steel are fixedly connected and the support angle steel The length is less than the length of the mounting angle. When installing, fix the hoop on the column between the photovoltaic panels, install the inverter on the beam, and the beam is formed by fixed connection of two angle steels, one long and one short. Compared with the cross beam made of U-shaped steel in the prior art, the purchase cost of the angle steel is low, and can be made from surplus material, the weight of the cross beam is light, and the installation is convenient.

Description

Inverter installation structure and photovoltaic panel support

technical field

The utility model relates to an inverter installation structure of a photovoltaic power station in the field of electric power engineering and a photovoltaic panel support used in the installation structure.

Background technique

With the increasingly prominent energy crisis, human beings have paid more and more attention to the research of new energy, and solar energy has been widely concerned as a green renewable energy, so photovoltaic power generation technology is increasingly favored by people. The main function of the inverter in the photovoltaic power generation system is to convert direct current into alternating current and transmit electric energy to the combiner box. , There is a big difference in size, so the bracket used to fix the inverter must be spliced on site according to the size of the inverter, which increases the installation time of the combiner box, and leads to the consumption of a large number of profiles, which increases the cost.

The Chinese utility model patent with the announcement number CN206743186U and the announcement date of 2017.12.12 discloses a photovoltaic combiner box installation structure that can be used on the inverter, including photovoltaic panel brackets for photovoltaic panel installation and for installation to photovoltaic panels. The combiner box on the support, the photovoltaic panel support includes a column vertically arranged on the foundation, the combiner box installation structure between the column and the combiner box includes a hoop for tightly mounting on the column, and a bracket for the combiner box to install. The crossbeam and the positioning hoop for positioning the hoop or the crossbeam, the crossbeam is formed of U-shaped steel, and the U-shaped steel is provided with long holes for the installation of the combiner box. During installation, the combiner box is fixed on the beam, and the beam is supported by the positioning hoop to prevent the combiner box from sliding down.

If the inverter adopts the installation structure consistent with the installation structure of the combiner box, there are still problems such as high purchase cost of U-shaped steel, large cross-section of U-shaped steel, heavy weight, and inconvenient installation.

Utility model content

The purpose of the utility model is to provide an inverter installation structure with low manufacturing cost and light weight; the purpose of the utility model is also to provide a photovoltaic panel support used in the inverter installation structure.

In order to achieve the above purpose, the scheme 1 of the inverter installation structure of the present utility model is: the inverter installation structure includes a photovoltaic panel support and an inverter for the installation of the photovoltaic panel, and the photovoltaic panel support includes vertically arranged columns, on which There are hoops and beams installed on the hoops for inverter installation, the beams include support angle steels for connecting with the hoops and installation angle steels for inverter installation, and the support angle steels and installation angle steels are fixed The length of the attached and supporting angle is less than the length of the mounting angle.

Solution 2 is that, according to the inverter installation structure described in solution 1, the cross section of the connecting part of the support angle steel and the installation angle steel is Z-shaped.

Solution 3 is that, according to the inverter installation structure described in solution 2, the supporting angle steel and the installation angle steel are provided with corresponding connection holes, and the support angle steel and the installation angle steel are connected by connecting bolts installed in the connection holes.

Solution 4 is, according to the inverter installation structure described in solution 3, the beam includes an upper beam and a lower beam arranged at intervals along the axial direction of the column, and the upper and lower beams are located between the two beams and the axis of the column The vertical planes are symmetrically set.

Scheme 5 is that, according to the inverter installation structure described in Scheme 4, the side of the Z-shaped cross-section of the connecting part of the support angle steel on the upper beam and the installation angle steel, which is close to the column, is lower than the side of the Z-shaped cross-section that is far away from the side of the column.

Scheme 1 of the photovoltaic panel support of the present utility model is: the photovoltaic panel support includes a vertical column for inverter installation, and the column is provided with a hoop and a crossbeam installed on the hoop for inverter installation. The beam includes a support angle steel for connecting with the hoop and an installation angle steel for inverter installation, the support angle steel and the installation angle steel are fixedly connected, and the length of the support angle steel is shorter than the length of the installation angle steel.

Solution 2 is that according to the photovoltaic panel support described in solution 1, the cross section of the connecting part of the supporting angle steel and the installation angle steel is Z-shaped.

Solution 3 is that, according to the photovoltaic panel bracket described in solution 2, the supporting angle steel and the installation angle steel are provided with corresponding connection holes, and the support angle steel and the installation angle steel are connected by connecting bolts installed in the connection holes.

Solution 4 is, according to the photovoltaic panel support described in solution 3, the beam includes an upper beam and a lower beam arranged at intervals along the axial direction of the column, and the upper and lower beams are perpendicular to the axis of the column between the two beams. The planar symmetry setting.

Scheme 5 is that, according to the photovoltaic panel support described in Scheme 4, the side of the Z-shaped cross-section of the connecting part of the support angle steel and the installation angle steel on the upper beam, which is close to the column, is lower than the side of the Z-shaped section away from the column. side.

The beneficial effects of the utility model are: during installation, the hoop is fixed on the column between the photovoltaic panels, and the inverter is installed on the beam, and the beam is formed by fixed connection of two angle steels, one long and one short. Compared with the cross beam made of U-shaped steel in the prior art, the purchase cost of the angle steel is low, and can be made from surplus material, the weight of the cross beam is light, and the installation is convenient.

Description of drawings

Fig. 1 is a structural schematic diagram of Embodiment 1 of the inverter mounting structure of the present invention;

Fig. 2 is the enlarged view of place A in Fig. 1;

Fig. 3 is a partial view along the direction B of Fig. 1 .

In the figure: 1-column, 2-inverter, 3-hoop, 4-positioning hoop, 5-support angle steel, 6-installation angle steel, 7-bolt.

Detailed ways

Embodiments of the present utility model will be further described below in conjunction with the accompanying drawings.

Embodiment 1 of the inverter installation structure of the present utility model, as shown in Figures 1 to 3, includes a photovoltaic panel support and an inverter 2, and the photovoltaic panel support includes a column 1 vertically arranged on the foundation foundation, and the column 1 is provided with a hoop 3 tightly mounted on the column 1 and a beam installed on the hoop 3 for the installation of the inverter 2. The hoop 3 includes an upper hoop and a lower hoop, and the corresponding beam includes an upper beam And the lower beam, the upper and lower beams are arranged symmetrically up and down.

The above beam is taken as an example. The upper beam includes a supporting angle steel 5 for connecting with the upper hoop and an installation angle steel 6 for installing the inverter 2. The supporting angle steel 5 and the installation angle steel 6 are respectively formed by two angle steels, one long and one short. The angle steel 5 and the installation angle steel 6 are provided with corresponding connecting holes, and the two angle steels are fixedly connected by bolts 7 during installation. The cross section of the connecting part of the support angle steel 5 and the installation angle steel 6 is Z-shaped, and the side of the Z-shaped section close to the column 1 is lower than the side of the Z-shaped section away from the column 1 .

The column 1 is also provided with a positioning hoop 4 for supporting the hoop or the beam. In this embodiment, only a positioning hoop 4 is provided below the lower hoop. The positioning hoop 4 is formed by docking two half hoops. The butt joint surfaces of the two half hoops are perpendicular to the crossbeam, and the positioning hoop 4 has two ear plate butt joint parts, one of which is located in the lower right-angle step of the lower cross beam. The lower beam is supported by the positioning hoop 4 to prevent the inverter 2 from sliding down.

Compared with the cross beam made of U-shaped steel in the prior art, the purchase cost of the angle steel is low, and can be made from surplus materials, the weight of the cross beam is light, and the installation is convenient.

Embodiment 2. The difference between embodiment 2 and embodiment 1 is that the installation angle steel and the supporting angle steel are welded into an integrated structure. Alternatively, the hoop can also be formed by a U-bolt.

In the embodiment of the photovoltaic panel support of the present invention, the structure of the photovoltaic panel support is the same as that of the photovoltaic panel support in any embodiment of the inverter installation structure of the present invention; therefore, the description will not be repeated.

Claims (10)

1. inverter mounting structure, includes the photovoltaic board mount and inverter installed for photovoltaic panel, photovoltaic board mount includes vertical The column of setting, column are equipped with anchor ear and the crossbeam for inverter installation on anchor ear, it is characterised in that：The cross Beam includes support angle steel for being connect with the anchor ear and the installation angle steel installed for inverter, support angle steel and installation angle steel It is fixedly connected and the length of support angle steel is less than the length for installing angle steel.

2. inverter mounting structure according to claim 1, it is characterised in that：The support angle steel is connected with installation angle steel The cross section of socket part point is Z-shaped.

3. inverter mounting structure according to claim 2, it is characterised in that：It is set on the support angle steel and installation angle steel There are corresponding connecting hole, support angle steel and installation angle steel to be bolted by the connection of installation in the connecting hole.

4. inverter mounting structure according to claim 3, it is characterised in that：The crossbeam includes the axis along the column To spaced upper beam and bottom end rail, upper and lower crossbeam is about flat with column axis perpendicular between two crossbeams Face is symmetrical arranged.

5. inverter mounting structure according to claim 4, it is characterised in that：Support angle steel and installation on the upper beam Angle steel be connected part Z-section close to the side of the column less than side of the Z-section far from the column.

6. photovoltaic board mount, including the column installed for inverter that is vertically arranged, column are equipped with anchor ear and are mounted on anchor ear On for inverter installation crossbeam, it is characterised in that：The crossbeam include support angle steel for being connect with the anchor ear and For the installation angle steel of inverter installation, support angle steel is fixedly connected with installation angle steel and the length of support angle steel is less than installation angle steel Length.

7. photovoltaic board mount according to claim 6, it is characterised in that：The support angle steel and installation angle steel phase connection The cross section divided is Z-shaped.

8. photovoltaic board mount according to claim 7, it is characterised in that：The support angle steel and installation angle steel are equipped with phase Corresponding connecting hole, support angle steel and installation angle steel are bolted by the connection of installation in the connecting hole.

9. photovoltaic board mount according to claim 8, it is characterised in that：The crossbeam includes between the axial direction of the column Every the upper beam and bottom end rail of setting, upper and lower crossbeam is about the plane pair with column axis perpendicular between two crossbeams Claim setting.

10. photovoltaic board mount according to claim 9, it is characterised in that：Support angle steel and established angle on the upper beam Steel be connected part Z-section close to the side of the column less than side of the Z-section far from the column.