CN217590658U - Photovoltaic panel support column - Google Patents

Abstract

The utility model discloses a photovoltaic panel support column, including the pole setting, the pole setting top is fixed with the support that is used for the vertical cable wire of tractive installation photovoltaic panel. Through set up the support at the pole setting top, vertical cable wire realizes fixedly through the support tractive to photovoltaic panel provides the installation basis. The utility model discloses a support column has replaced at the horizontal installation crossbeam in pole setting top, sets up the structural style in order to form braced system at the crossbeam with vertical cable wire again, utilizes pole setting and support directly to carry out the tractive fixedly to vertical cable wire. Utilize the crossbeam to bear the current support column of vertical cable wire for needs, the utility model discloses a support column need not to set up the crossbeam to effectively solved long, the weight of crossbeam length, it is inconvenient to be under construction in the field, and the steel consumption is big, the not good problem of economic nature.

Description

A photovoltaic panel support column

technical field

The utility model mainly relates to the technical field of photovoltaic panel support systems, in particular to a photovoltaic panel support column.

Background technique

Solar energy is the energy generated by the continuous nuclear fusion reaction of sunspots inside or on the surface of the sun. Solar energy has the advantages of abundant resources, longevity, wide distribution, safety, cleanliness, and technical reliability. Since solar energy can be converted into many other forms of energy, it has a wide range of applications. Obtaining electricity from solar energy requires photoelectric conversion through solar cells. Photovoltaic panel refers to a device that directly converts solar energy into electrical energy by using the photovoltaic effect of semiconductor materials under light conditions. It is the most direct way of utilizing solar energy, and most of the materials are silicon. Power can be generated wherever there is sunlight, so solar photovoltaics are suitable for everything from large power stations to small portable chargers. However, although the reserves of solar energy are very large, the proportion of electricity produced by human beings using solar energy accounts for a relatively small proportion of the total global energy consumption, only about 0.16%. Therefore, actively developing low-cost and high-efficiency solar panel materials and improving the photoelectric conversion rate will help solve the world's energy and environmental crisis and have great use value and practical significance.

In order to ensure the supporting force of the existing steel cable type solar photovoltaic panel systems, most of the beams are made of steel, and then the steel cables are connected with the beams to form a mesh support, and the photovoltaic panels are installed on the support to form a fixation. Due to the long length and heavy weight of the beam frame, it is very difficult to construct and install in the field. Not only that, the traditional steel beam frame also consumes a lot of steel and is not economical.

Utility model content

The technical problem to be solved by the utility model is to overcome the deficiencies of the prior art and provide a photovoltaic panel support column which is convenient for construction.

In order to solve the above-mentioned technical problems, the utility model adopts the following technical solutions:

A photovoltaic panel support column includes a vertical pole, the top of which is fixed with a bracket for pulling a longitudinal steel cable on which a photovoltaic panel is installed.

As a further improvement of the above technical solution:

The bracket includes a hoop, a beam and a diagonal strut; the hoop is sleeved on the top of the vertical rod, the beam is laterally arranged just above the vertical rod, and the hoop and the beam are connected through the diagonal bracing.

A pair of mounting seats for pulling the transverse cable are formed on opposite sides of the hoop in the longitudinal direction.

The beams are inclined laterally.

The bottom end of the beam is provided with a strut extending downward, and the bottom end of the strut is fixed on the top end of the vertical rod.

There are four diagonal bracing rods; the top ends of two diagonal bracing rods are connected to one end of the beam, the top ends of the other two diagonal bracing rods are connected to the other end of the beam, and the bottom ends of the diagonal bracing rods are connected to one end of the beam. Attached to the hoop.

The bottom end of the diagonal strut is connected to the longitudinally opposite side of the hoop, and the bottom end of the diagonal strut whose top is located on the same side of the beam is located on the opposite side of the hoop.

The bracket also includes three reinforcing rods, one end of the three reinforcing rods is connected, and the connecting end is provided with an anchor for pulling the longitudinal reinforcing cable; the scattered ends of the two reinforcing rods are connected with the beam to form a triangle, and the other The scattered ends of the reinforcing rods are connected with the hoop.

The top end of the vertical rod is provided with a guide seat along the longitudinal direction for pulling the longitudinal reinforcement cable.

The guide seat includes a bottom plate fixedly connected to the top of the vertical rod, the top surface of the bottom plate is formed with a guide plate that is arched along the longitudinal extension, and the top surface of the guide plate is provided with a number of hoops at intervals along the length direction, and the longitudinal reinforcement cable pass through the hoop.

Compared with the prior art, the advantages of the present utility model are:

By arranging a bracket on the top of the vertical pole, the longitudinal steel cable is pulled by the bracket to achieve fixation, thus providing an installation basis for the photovoltaic panel. The support column disclosed by the utility model replaces the horizontal installation of the beam on the top of the vertical pole, and then erects the longitudinal steel cable on the horizontal beam to form the structural form of the support system, and the vertical steel cable is directly pulled and fixed by the vertical pole and the bracket. Compared with the existing support column that needs to use the cross beam to carry the longitudinal steel cable, the support column disclosed by the utility model does not need to set the cross beam, thereby effectively solving the problem of long length and large weight of the cross beam, inconvenient construction and installation in the field, and large consumption of steel and economical. Sexual problems.

Description of drawings

1 is a schematic structural diagram of a photovoltaic panel support column in Embodiment 1;

Fig. 2 is the partial enlarged schematic diagram of A place in Fig. 1;

Fig. 3 is the partial schematic diagram of embodiment 2;

FIG. 4 is a partial schematic view of Example 3. FIG.

11, guide seat; 111, bottom plate; 112, guide plate; 113, hoop; 2, longitudinal steel cable; 3, bracket; 31, hoop; 311, mounting seat; 32, beam; 321, strut; 33, diagonal strut; 34, reinforcement rod; 35, anchor; 4, transverse cable; 5, longitudinal reinforcement cable.

Detailed ways

The present utility model will be further described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1

As shown in FIG. 1 and FIG. 2 , the photovoltaic panel support column of this embodiment includes a vertical pole 1 , and a bracket 3 for pulling the longitudinal steel cable 2 on which the photovoltaic panel is installed is fixed on the top of the vertical pole 1 . By arranging a bracket 3 on the top of the vertical pole 1, the longitudinal steel cable 2 is pulled by the bracket 3 to realize fixing, thereby providing an installation basis for the photovoltaic panel. The support column disclosed in the present invention replaces the horizontal installation of the beam on the top of the vertical pole 1, and then erects the longitudinal steel cable 2 on the horizontal beam to form the structural form of the support system, and uses the vertical pole 1 and the bracket 3 to directly pull the longitudinal steel cable 2. Pull to fix. Compared with the existing support column that needs to use the beam to carry the longitudinal steel cable 2, the support column disclosed in the present invention does not need to set the beam, thereby effectively solving the problem of long beam length, large weight, inconvenient construction and installation in the field, and large consumption of steel. poor economics.

In this embodiment, the bracket 3 includes a hoop 31 , a beam 32 and a diagonal strut 33 ; the hoop 31 is sleeved on the top of the vertical pole 1 , the beam 32 is laterally arranged directly above the vertical pole 1 , and the hoop 31 and the beam 32 are connected by The diagonal struts 33 are connected. The beam 32 is provided with fasteners or holes for passing through and fixing the longitudinal steel cable 2 , the gravity of the photovoltaic panel is transmitted to the beam 32 through the longitudinal steel cable 2 , and by setting the diagonal struts 33 , the force of the beam 32 is transmitted through the diagonal struts 33 . To the hoop 31 , the hoop 31 is sleeved on the top of the pole 1 , so that the force can be transmitted to the ground through the pole 1 . The structure is simple, stable, inexpensive and easy to install. Preferably, the beams 32 are welded or bolted to the diagonal struts 33 .

In this embodiment, a pair of mounting seats 311 for pulling the transverse stay cable 4 are formed on opposite sides of the hoop 31 in the longitudinal direction. By arranging the mounting seat 311 , the vertical poles 1 arranged laterally are connected in series by the lateral cable 4 , thereby forming a lateral tensile force with each other, and effectively enhancing the lateral stability of the system.

In this embodiment, the beams 32 are inclined laterally. In order to obtain a better sunlight angle for the photovoltaic panels, the beams 32 are arranged in an inclined shape, and then the longitudinal steel cables 2 fixed at both ends of the beams 32 are inclined accordingly.

In this embodiment, the bottom end of the beam 32 is provided with a support rod 321 extending downward, and the bottom end of the support rod 321 is fixed to the top end of the vertical rod 1 . By arranging a strut 321 at the bottom end of the beam 32, the beam 32 is further provided with vertical support, thereby enhancing the stability.

In this embodiment, there are four diagonal struts 33; the tops of two diagonal braces 33 are connected to one end of the beam 32, and the tops of the other two diagonal braces 33 are connected to the other end of the beam 32. The diagonal braces 33 The bottom end is connected with the hoop 31 . The bottom end of the diagonal strut 33 is connected to the longitudinally opposite side of the hoop 31 , and the bottom end of the diagonal strut 33 whose top is located on the same side of the beam 32 is located on the opposite side of the hoop 31 . The rods are connected to form a triangular structure, and the stability of the triangle is the best, so this structure can obtain better stability.

Example 2

As shown in FIG. 3 , the second embodiment of the photovoltaic panel support column of the present invention is basically the same as that of the first embodiment, the difference is that: in this embodiment, the bracket 3 further includes three reinforcing rods 34 , and the three reinforcing rods 34 One end is connected, and the connecting end is provided with an anchor 35 for pulling the longitudinal reinforcing cable 5; . In order to enhance the stability of supporting the photovoltaic panel, a longitudinal reinforcing cable 5 is provided along the longitudinal direction, and the reinforcing cable and the longitudinal steel cable 2 provide support for the photovoltaic panel. In order to provide end pulling for the longitudinal reinforcement cable 5 , three reinforcement rods 34 are additionally provided on the bracket 3 . Anchors 35 are provided to be able to pull the ends of the longitudinal reinforcement cables 5 .

Example 3

As shown in FIG. 4 , the third embodiment of the photovoltaic panel support column of the present invention is basically the same as the first embodiment, the difference is: in this embodiment, the top of the vertical rod 1 is longitudinally provided with a longitudinal reinforcement for pulling The guide seat 11 of the cable 5. The guide base 11 includes a bottom plate 111 that is fixedly connected to the top of the vertical rod 1. The top surface of the bottom plate 111 is formed with a guide plate 112 that is arched along the longitudinal direction. The cable 5 is passed through the hoop 113 . The support column in the middle is used to pass through the longitudinal reinforcement cable 5 by setting the guide seat 11 . In order to reduce friction, the guide base 11 is provided with a guide plate 112 , and the guide plate 112 is arched along the extending direction of the longitudinal reinforcing cable 5 .

Although the present invention has been disclosed above with preferred embodiments, it is not intended to limit the present invention. Any person skilled in the art, without departing from the scope of the technical solution of the present invention, can utilize the technical content disclosed above to make many possible changes and modifications to the technical solution of the present invention, or be modified to equivalent changes, etc. effective embodiment. Therefore, any simple modifications, equivalent changes and modifications made to the above embodiments according to the technical essence of the present invention without departing from the content of the technical solutions of the present invention should fall within the protection scope of the technical solutions of the present invention.

Claims (8)

1. A photovoltaic panel support column, its characterized in that: the photovoltaic panel frame comprises a vertical rod (1), wherein a support (3) used for drawing a longitudinal steel cable (2) provided with a photovoltaic panel is fixed at the top of the vertical rod (1); the bracket (3) comprises a hoop (31), a beam (32) and an inclined stay bar (33); the hoop (31) is sleeved at the top of the vertical rod (1), the beam (32) is transversely arranged right above the vertical rod (1), and the hoop (31) is connected with the beam (32) through the inclined stay bar (33); and a pair of mounting seats (311) for pulling the transverse inhaul cable (4) are formed on the opposite sides of the hoop (31) along the longitudinal direction.

2. The photovoltaic panel support column of claim 1, wherein: the beam (32) is arranged obliquely in the transverse direction.

3. The photovoltaic panel support column of claim 2, wherein: the bottom end of the beam (32) extends downwards to form a support rod (321), and the bottom end of the support rod (321) is fixed to the top end of the vertical rod (1).

4. The photovoltaic panel support column of claim 1, wherein: four diagonal braces (33) are arranged; the top ends of two inclined supporting rods (33) are connected with one end of a beam (32), the top ends of the other two inclined supporting rods (33) are connected with the other end of the beam (32), and the bottom ends of the inclined supporting rods (33) are connected with the hoop (31).

5. The photovoltaic panel support column of claim 4, wherein: the bottom ends of the inclined supporting rods (33) are connected with the longitudinal opposite sides of the hoop (31), and the bottom ends of the inclined supporting rods (33) with the top ends located on the same side of the beam (32) are located on the opposite side of the hoop (31).

6. The photovoltaic panel support column of claim 1, wherein: the bracket (3) also comprises three reinforcing rods (34), one ends of the three reinforcing rods (34) are connected, and anchorage devices (35) used for pulling the longitudinal reinforcing cables (5) are arranged at the connected ends; the dispersing ends of the two reinforcing rods (34) are connected with the beam (32) to form a triangle, and the dispersing end of the other reinforcing rod (34) is connected with the hoop (31).

7. The photovoltaic panel support column of claim 1, wherein: the top end of the vertical rod (1) is longitudinally provided with a guide seat (11) for pulling the longitudinal reinforcing cable (5).

8. The photovoltaic panel support column of claim 7, wherein: the guide seat (11) comprises a bottom plate (111) fixedly connected with the top end of the vertical rod (1), a guide plate (112) arched along the longitudinal extension is formed on the top surface of the bottom plate (111), a plurality of hoops (113) are arranged on the top surface of the guide plate (112) at intervals along the length direction, and the longitudinal reinforcing cables (5) penetrate through the hoops (113).

Images