CN209462305U - Mounting bracket for wind-solar hybrid power generation system - Google Patents

Abstract

The installation bracket of the wind-solar hybrid power generation system, the two horizontal brackets of the base frame and the two vertical brackets are vertically fixed and assembled, the four corners fixed by the horizontal bracket and the vertical bracket are fixed with cross braces inside, and the two longitudinal brackets of the base frame are respectively symmetrical Install two support columns, the upper end of the support column is fixedly connected to the upper bracket, and the four corners of the upper bracket are respectively provided with diagonal braces between the ends of the adjacent base frame's transverse bracket and the end of the longitudinal bracket, connecting the two transverse brackets of the base frame There are installation frames between the two diagonal braces and the two diagonal braces connecting the two longitudinal supports of the base frame; the center of the cross diagonal braces is connected to the column through the lower flange, and the upper end of the column is installed with the upper method for connecting the wind turbine. Orchid plate. The utility model adds a wind power generator connection device to the support of the solar power generation system, and can also use wind power to generate electricity while utilizing solar power to generate electricity, and can stably supply power in various weather environments.

Description

Wind-solar hybrid power generation system mounting bracket

technical field

The utility model relates to the technical field of new energy sources, in particular to a power generation system installation bracket.

Background technique

Energy is an important material basis for the development of the national economy and people's lives. Problems such as energy shortages and environmental pollution have seriously affected people's lives and restricted social development. Countries have begun to control and alleviate the deteriorating environment according to their national conditions. The development and utilization of pollution-free new energy is an important content of sustainable development. These include wind power, photovoltaic power generation, solar thermal power generation, geothermal energy, and biomass energy.

The existing new energy power generation methods usually use a single solar power or a single wind power generation. There are some problems in the single solar power generation. The most prominent one is that the solar power generation is insufficient under continuous bad weather conditions, which may easily cause the battery to be over-discharged and affect the battery life. performance or damage. The problem of insufficient solar power generation is particularly acute in winter and spring. In bad weather, it is often accompanied by strong winds. That is to say, when the weather conditions of solar power generation are not ideal, wind energy is often the most abundant. Therefore, the above problems can be solved by combining two power generation systems, and then the existing solar power generation The system mounting bracket is not suitable for the installation of wind power system.

Utility model content

In order to solve the above-mentioned problems in the traditional solar power generation method, the utility model provides a mounting bracket for a wind-solar hybrid power generation system.

The technical solution adopted by the utility model to achieve the above purpose is: the installation bracket of the wind-solar hybrid power generation system, the base frame includes two horizontal brackets parallel to each other and two vertical brackets parallel to each other, the two horizontal brackets and the vertical The two brackets are vertically fixed and assembled. The four corners fixed by the horizontal bracket and the longitudinal bracket are fixed with cross braces. Two support columns are symmetrically installed on the two longitudinal brackets of the base frame. Diagonal braces are provided between the four corners and the ends of the adjacent horizontal brackets and longitudinal brackets of the base frame, the two diagonal braces connecting the two horizontal brackets of the base frame and the two diagonal braces connecting the two longitudinal brackets of the base frame Installing frames are arranged between them; the center of the cross brace is connected to the column through the lower flange, and the upper flange for connecting the wind turbine is installed on the upper end of the column.

A cross brace is installed between the front and rear brackets of the upper end bracket, the cross brace is located on one side of the column, and the cross brace is connected to the column through a fixing device.

Each brace is provided with a hole for fixing the solar panel.

The base frame, support columns, diagonal braces, horizontal braces, cross diagonal braces and upper end brackets are all made of angle steel.

The lower flange is fixed on the cross bracing by bolts.

The fixing device is a U-shaped steel ring, and the tail of the U-shaped steel ring is fixed on the cross brace.

The installation bracket of the wind-solar hybrid power generation system of the utility model adds a device connected to a wind power generator on the basis of the solar power generation system bracket, and can also use wind power to generate electricity while using solar power to generate electricity, and can stably supply power in various weather environments.

Description of drawings

Fig. 1 is a structural diagram of the lower half of the installation bracket of the wind-solar hybrid power generation system of the utility model.

Fig. 2 is the overall structure diagram of the installation bracket of the wind-solar hybrid power generation system of the utility model.

In the figure: 1. Base frame, 2. Support column, 3. Diagonal brace, 4. Installation frame, 5. Upper bracket, 6. Cross brace, 7. Cross brace, 8. Fixing device, 9. Lower flange , 10, column, 11, upper flange.

Detailed ways

The installation bracket structure of the wind-solar hybrid power generation system of the present utility model is shown in Figure 1 and Figure 2, including a base frame 1, a support column 2, a diagonal brace 3, an installation frame 4, an upper bracket 5, a cross brace 6, a cross brace 7, Fixing device 8, lower flange 9, column 10, and upper flange 11, four support columns 2 are arranged on the base frame, eight diagonal braces 3 are arranged on the four support columns 2, and there are installation frames on the diagonal braces 4. Eight diagonal braces 3 and four support columns 2 converge into an upper bracket 5. The upper bracket 5 has a cross brace 6. The base frame 1 has a cross brace 7. The two ends of the cross brace 7 are connected to the upper flange. 11 and the column 10 of the lower flange 9, the fixture 8 of the column on the cross brace 6 of the upper end support 5.

The specific structure is as follows: the base frame 1 includes two horizontal brackets parallel to each other and two vertical brackets parallel to each other, the two horizontal brackets and the two vertical brackets are vertically fixed and assembled, and the four-corner interior fixed by the horizontal bracket and the vertical bracket Fixedly equipped with cross braces 7, two longitudinal supports of the base frame 1 are respectively symmetrically installed with two support columns 2, and the upper ends of the support columns 2 are fixedly connected to the upper end bracket 5, and the four corners of the upper end support 5 are connected to the adjacent base frame respectively. A diagonal brace 3 is provided between the ends of the horizontal bracket of 1 and the end of the longitudinal bracket, and each diagonal brace 3 is provided with a hole for fixing the solar panel, connecting the two diagonal braces 3 of the two horizontal brackets of the base frame 1 and connecting the base frame 1 An installation frame 4 is provided between the two diagonal braces 3 of the two longitudinal supports; the center of the cross brace 7 is connected to the column 10 through the lower flange 9, and the lower flange 9 is fixed on the cross brace 7 by bolts , the upper end of the column 10 is installed with an upper flange 11 for connecting to the wind power generator, and a cross brace 6 is installed between the front and rear brackets of the upper support 5, and the cross brace 6 is located on one side of the column 10, and the cross brace 6 is connected to the column 10 through a fixing device 8 , the fixing device 8 is a U-shaped steel ring, and the tail of the U-shaped steel ring is fixed on the cross brace 6 . The base frame 1, the support column 2, the diagonal brace 3, the horizontal brace 6, the cross diagonal brace 7 and the upper end bracket 5 are all made of angle steel. The angle formed by the diagonal brace 3 and the base frame 1 is determined by the best local lighting angle, the size of the installation frame 4 is determined by the actual solar panel size, the flange plate 9 at the lower end of the column is connected with the cross brace 7 by bolts, and the diameter of the column 10 is determined by Determined by the maximum lateral load of the wind generator, the column 10 can be easily disassembled to become a single solar power generation system support.

When using this equipment, the equipment is first installed on the ground, then the solar panel is installed on the diagonal brace 3 and the installation groove 4, and the fan is installed on the flange plate 9 at the upper end of the column 10.

The utility model is equipped with a wind generator on the basis of the solar bracket. While the solar panels on the solar bracket use solar power to generate electricity, the wind generator installed on the solar bracket can also use wind power to generate electricity, which improves the energy utilization rate. It can also avoid the energy shortage problem caused by the failure of one of the power generation equipment, and ensure the normal power supply of the equipment.

Claims (6)

1. wind and solar hybrid generating system mounting bracket, it is characterised in that: pony sill (1) includes lateral parallel to each other two branch Frame and longitudinal parallel to each other two bracket, two lateral brackets and two longitudinal support verticals, which are fixed, to be assembled, laterally It is fixed with counterbracing (7) inside the quadrangle that bracket and longitudinal carrier are fixed, on two longitudinal carriers of pony sill (1) respectively Two support columns (2) are symmetrically installed, support column (2) upper end is fixedly connected upper end bracket (5), four angles point of upper end bracket (5) Diagonal brace (3) are equipped with not between the horizontal support and longitudinal carrier end of adjacent pony sill (1), connect pony sill (1) two Installation is respectively equipped between two diagonal braces (3) of horizontal support and two diagonal braces (3) of connection (1) two longitudinal carrier of pony sill Frame (4)；By lower flange (9) connection column (10) at counterbracing (7) center, column (10) upper end is installed for connecting wind The upper flange plate (11) of power generator.

2. wind and solar hybrid generating system mounting bracket according to claim 1, it is characterised in that: the upper end bracket (5) Front and back support between stull (6) are installed, stull (6) is located at column (10) side, and stull (6) passes through fixed device (8) and connects Column (10).

3. wind and solar hybrid generating system mounting bracket according to claim 1, it is characterised in that: set on each diagonal brace (3) There is the hole for fixing solar panels.

4. wind and solar hybrid generating system mounting bracket according to claim 1, it is characterised in that: the pony sill (1), branch Dagger (2), diagonal brace (3), stull (6), counterbracing (7) and upper end bracket (5) are made of angle steel.

5. wind and solar hybrid generating system mounting bracket according to claim 1, it is characterised in that: the lower flange (9) It is fixed by bolts on counterbracing (7).

6. wind and solar hybrid generating system mounting bracket according to claim 2, it is characterised in that: the fixed device (8) For U-shaped steel ring, U-shaped steel ring tail portion is fixed on stull (6).