CN219726216U - Photovoltaic board support raw materials rack - Google Patents

Abstract

The utility model belongs to the technical field of photovoltaic panel supports, and particularly relates to a photovoltaic panel support raw material placement frame which comprises a support body, wherein the support body comprises two rectangular vertical face frames and a rectangular horizontal frame, the vertical face frames are arranged on two corresponding side frames of the horizontal frame, axial limiting rods are movably arranged at the upper ends of the two vertical face frames, two circumferential limiting connecting rods are arranged in the horizontal frame, and a lifting device is further arranged at the lower end of the horizontal frame. Through set up recess or arch at the top of both sides facade frame, make the axial gag lever post transversely erect at belted steel axial both ends, make belted steel can not take place axial side and axial slip, the safety when guaranteeing belted steel and depositing. The vertical face frame is provided with a plurality of grooves or protrusions, so that the clamping position of the axial limiting rod can be selected according to the number and the length of the bundled steel strips.

Description

Photovoltaic board support raw materials rack

Technical Field

The utility model belongs to the technical field of photovoltaic panel supports, and particularly relates to a photovoltaic panel support raw material placement frame.

Background

The photovoltaic panel assembly is a power generation device capable of generating direct current when exposed to sunlight, and is composed of a thin solid photovoltaic cell almost made of semiconductor materials, wherein the simple photovoltaic cell can provide energy for watches and computers, and a more complex photovoltaic system can provide illumination for houses and supply power for a power grid. The photovoltaic panel assembly can be made in different shapes and the assembly can be connected to generate more electricity, and the photovoltaic panel assembly can be used on both the ceiling and building surfaces and even as part of a window, skylight or screening device. Wherein, the support for building the photovoltaic panel assembly is mostly formed by strip steel stamping.

The patent CN210311675U discloses a movable strip steel placing rack, which comprises a plurality of placing mechanisms for placing strip steel and a connecting and supporting mechanism for connecting and fixing each placing mechanism; the number of the placing mechanisms is at least two; the placing mechanisms are arranged on the connecting support mechanism at equal intervals; the connecting support mechanisms are arranged on the placing mechanism in pairs; the connecting support mechanism is also used for fixing the placing frame when the placing frame is static. The utility model can be assembled and disassembled randomly according to the quantity of the stored strip steel, can avoid the scratch on the surface of the strip steel due to the friction effect with the ground in the process of storing the strip steel, is convenient for the whole row of strip steel to finish transferring operation, and has stronger practicability.

In the actual storage of the strip steel, the axial length of the whole bundle of strip steel is not larger than the diameter, the gravity center of the whole bundle of strip steel is higher when the whole bundle of strip steel is placed in contact with the ground, and the placing rack in the scheme is not provided with a limiting device in the axial direction of the strip steel, and the bottom of the device is also provided with a roller for conveying, so that the whole bundle of strip steel is very easy to turn over in the conveying process.

Disclosure of Invention

The utility model aims to solve the problems and provides a photovoltaic panel bracket raw material placing frame capable of solving the technical problems.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a photovoltaic board support raw materials rack, includes the support body, the support body includes two rectangle facade frames and a rectangle horizontal frame, the facade frame is established on two corresponding frames of horizontal frame, two the upper end activity of facade frame is provided with axial gag lever post be provided with two circumference spacing connecting rods in the horizontal frame, the lower extreme of horizontal frame still is provided with hoisting device.

In the photovoltaic panel bracket raw material placing rack, the horizontal frame comprises two horizontal long-side connecting rods and two horizontal short-side connecting rods, the circumferential limiting connecting rods are arranged between the two horizontal short-side connecting rods, and the vertical face frame is arranged at the upper end of the horizontal long-side connecting rods.

In the photovoltaic panel bracket raw material placing rack, two circumferential limit connecting rods are respectively provided with two opposite limit wedges, and the inclined surfaces of the limit wedges are arc-shaped.

In the photovoltaic panel support raw material placing rack, the elevation frame comprises two upright posts and a cross rod, the upright posts are arranged at the joint of the horizontal long-side connecting rod and the horizontal short-side connecting rod, and the cross rod is connected with the upper ends of the two upright posts in the same elevation frame.

In the photovoltaic panel bracket raw material placing rack, the upper end of the cross rod is provided with at least two limiting protrusions, and the end part of the axial limiting rod is arranged between the two limiting protrusions.

In the photovoltaic panel support raw material placing rack, a plurality of limiting grooves are formed in the upper end of the cross rod, and the end portion of the axial limiting rod is in clearance fit with the limiting grooves.

In the photovoltaic panel bracket raw material placing rack, a connecting rod between vertical faces is arranged between two vertical face frames, and the connecting rod between the vertical faces connects the upright posts which are positioned on the same side in the two vertical face frames.

In the photovoltaic panel bracket raw material placing rack, a vertical face reinforcing rod is arranged in the vertical face frame, the upper end of the vertical face reinforcing rod is connected with the vertical face frame, and the lower end of the vertical face reinforcing rod is connected with the horizontal long-side connecting rod on the same side.

In the photovoltaic panel support raw material placement frame, a circumferential limit reinforcing rod is further arranged in the horizontal frame, one end of the circumferential limit reinforcing rod is connected with the circumferential limit connecting rod, and the other end of the circumferential limit reinforcing rod is connected with the horizontal long-side connecting rod.

In the photovoltaic panel bracket raw material placing frame, the lifting device is arranged at the joint of the horizontal long-side connecting rod and the horizontal short-side connecting rod.

The utility model has the advantages that:

through set up recess or arch at the top of both sides facade frame, make the axial gag lever post transversely erect at belted steel axial both ends, make belted steel can not take place axial side and axial slip, the safety when guaranteeing belted steel and depositing. The vertical face frame is provided with a plurality of grooves or protrusions, so that the clamping position of the axial limiting rod can be selected according to the number and the length of the bundled steel strips.

Two limiting wedges are arranged in the horizontal frame in opposite directions, and the two limiting wedges with circular arc surfaces form a circular groove with a hollowed bottom, so that the cambered surfaces of the transversely arranged bundled strip steel are positioned in the groove, and the strip steel cannot roll. For the strip steel with smaller diameter, the spacing between the two limiting wedges is too wide to effectively limit, and the placing frame can be lifted by the lifting device, so that the strip steel is gradually clamped into the circular groove.

Drawings

Fig. 1 is a schematic view of the structure of the present utility model when it is loaded.

Fig. 2 is a schematic view of the structure of the present utility model when the vehicle is idle.

FIG. 3 is a schematic diagram of the cooperation of the band steel and the circumferential spacing connecting rod.

In the illustration, a vertical face frame 1, a vertical column 11, a cross rod 12, a limiting protrusion 121, a vertical face reinforcing rod 13, a horizontal frame 2, a circumferential limiting connecting rod 21, a limiting wedge 211, a circumferential limiting reinforcing rod 212, a horizontal long-side connecting rod 22, a horizontal short-side connecting rod 23, an axial limiting rod 3, a lifting device 4, a vertical face connecting rod 5 and strip steel 6.

Detailed Description

The following are specific embodiments of the utility model and the technical solutions of the utility model will be further described with reference to the accompanying drawings, but the utility model is not limited to these embodiments.

Example 1

As shown in fig. 1-3, the photovoltaic panel bracket raw material placement rack comprises a bracket body, and is characterized in that the bracket body comprises two rectangular vertical face frames 1 and a rectangular horizontal frame 2, the vertical face frames 1 are arranged on two corresponding side frames of the horizontal frame 2, the upper ends of the two vertical face frames 1 are movably provided with axial limiting rods 3, two circumferential limiting connecting rods 21 are arranged in the horizontal frame 2, and the lower ends of the horizontal frame 2 are also provided with lifting devices 4.

Namely, a rectangular frame with a vertical face frame 1 and a horizontal frame 2 are built into a foundation, the horizontal frame 2 is used as the bottom, and the two vertical face frames 1 are welded on two corresponding side frames of the horizontal frame 2 to limit the lateral rolling range of strip steel. An axial limiting rod 3 is transversely erected between the two vertical face frames 1 to support the axial direction of the strip steel, and the bundled strip steel is prevented from side turning.

Wherein, two circumferential limit connecting rods 21 are additionally arranged on the horizontal frame 2, so that the strip steel falls between the two circumferential limit connecting rods 21, the rolling of the strip steel is further limited, and the strip steel is more stable and safer in a placing frame.

In the present embodiment, the horizontal frame 2 includes two horizontal long-side links 22 and two horizontal short-side links 23, the circumferential limit links 21 are disposed between the two horizontal short-side links 23, and the facade frame 1 is set up at the upper ends of the horizontal long-side links 22. The long side direction of the horizontal frame 2 is aligned with the cambered surface of the strip steel, and the short side direction of the horizontal frame 2 is aligned with the axial direction of the strip steel.

As a preferred mode, two opposite limiting wedges 211 are respectively arranged on the two circumferential limiting connecting rods 21, the two limiting wedges 211 on two sides limit the rolling of the steel strip in a common mode, the inclined surfaces of the limiting wedges 211 are arc-shaped, the arc inclined surfaces are in contact with the side arc surfaces of the bundled steel strip, and when the limiting wedges 211 set up the steel strip, the contact surfaces are more attached, so that the collision and abrasion of edges and corners to the steel strip are reduced.

In this embodiment, the vertical face frame 1 includes two upright posts 11 and a cross bar 12, the upright posts 11 are disposed at the connection positions of the horizontal long-side connecting rod 22 and the horizontal short-side connecting rod 23, and the cross bar 12 is connected to the upper ends of the two upright posts 11 in the same vertical face frame 1.

In order to ensure the stability of the facade frame 1, the upright 11 is increased to twice the thickness of the cross bars 12, so as to resist the pressure caused by the rolling and the rolling of the strip steel.

Preferably, at least two limiting protrusions 121 are arranged at the upper end of the cross rod 12, and the end part of the axial limiting rod 3 is arranged between the two limiting protrusions 121. When the strip steel side leans against the axial limiting rod 3, two ends of the axial limiting rod 3 are clamped in the two limiting protrusions 121, so that the strip steel cannot continuously topple outwards. Two axial limiting rods 3 are arranged at the upper end of the cross rod 12, so that the strip steel is positioned between the two axial limiting rods 3, and the axial limiting rods 3 are abutted against the two end surfaces of the strip steel, so that the strip steel is limited in all directions, and the stability of the strip steel during placement is ensured.

In this embodiment, an inter-elevation connecting rod 5 is provided between the two-sided frames 1, and the inter-elevation connecting rod 5 connects the columns 11 on the same side in the two-sided frames 1. The uprights 11 in the two-sided facade frame 1 are connected to each other without affecting the inner space of the rack. The connecting rods 5 between the vertical faces need to keep the relative angles of the vertical face frames 1 at the two sides stable, and the connecting rods 5 between the vertical faces, which are quite thick and thin with the upright posts 11, are selected for supporting connection.

In this embodiment, the vertical face frame 1 is provided with a vertical face reinforcing bar 13, the upper end of the vertical face reinforcing bar 13 is connected with the vertical face frame 1, and the lower end of the vertical face reinforcing bar 13 is connected with a horizontal long-side connecting rod 22 on the same side. The strength of the facade frame 1 and the connectivity to the plane frame are improved by the facade stiffener 13.

The elevation reinforcing rod 13 may extend obliquely from the connection between the upright post 11 and the cross bar 12 to the horizontal long-side connecting rod 22, or may be vertically connected between the cross bar 12 and the horizontal long-side connecting rod 22.

Preferably, a circumferential limit reinforcing rod 212 is further arranged in the horizontal frame 2, one end of the circumferential limit reinforcing rod 212 is connected with the circumferential limit connecting rod 21, and the other end of the circumferential limit reinforcing rod 212 is connected with the horizontal long-side connecting rod 22. When the rack is lifted, only the circumferential limit links 21 with both ends connected to the horizontal short-side links 23 bear a large pressure, and in order to avoid bending deformation of the circumferential limit links 21, the circumferential limit reinforcing rods 212 strengthen the connection between the adjacent middle portions of the circumferential limit links 21 and the horizontal long-side links 22.

In this embodiment, the lifting device 4 is disposed at the connection position of the horizontal long-side connecting rod 22 and the horizontal short-side connecting rod 23, and the lifting device 4 is four pedal jacks, so that the placing frame and the strip steel therein can be lifted together when required.

When the bundled strip steel is stored, the strip steel is transversely placed to enable the axial end face to face the axial limiting rod 3, the cambered surface of the strip steel is in contact with the ground, but the two circumferential limiting connecting rods 21 can be just erected on the cambered surface (the aim is that the limiting connecting rods 21 do not bear the weight of the strip steel completely, the durability and the safety of the placing frame are improved), thick carpets can be paved below the strip steel, and the strip steel is prevented from being scratched by the ground. Finally, the axial limiting rods 3 are arranged at the two axial ends, so that the strip steel is completely fixed in all directions.

When the band steel is bundled with different diameters, the height of the placing frame is adjusted through the lifting device 4 to a state that the cambered surface of the band steel can be contacted with the ground and can be erected by the circumferential limiting connecting rod 21.

Example 2

Based on the technical scheme of embodiment 1, be provided with a plurality of spacing recesses in the upper end of horizontal pole 12, the tip and the spacing recess clearance fit of axial gag lever post 3. The limiting grooves are formed into round, triangular and other shapes, and the two ends of the axial limiting rod 3 are also arranged into shapes matched with the limiting grooves, so that the axial limiting rod 3 is more stable at the upper end of the cross rod 12, axial sliding cannot occur, and potential safety hazards caused by accidental falling of the axial limiting rod 3 are prevented.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (10)

1. The utility model provides a photovoltaic board support raw materials rack, includes the support body, its characterized in that, the support body includes two rectangle facade frames (1) and a rectangle horizontal frame (2), facade frame (1) are established on two corresponding frames of horizontal frame (2), two the upper end activity of facade frame (1) is provided with axial gag lever post (3) be provided with two circumference spacing connecting rod (21) in horizontal frame (2), the lower extreme of horizontal frame (2) still is provided with hoisting device (4).

2. The photovoltaic panel bracket raw material placement frame according to claim 1, characterized in that the horizontal frame (2) comprises two horizontal long-side connecting rods (22) and two horizontal short-side connecting rods (23), the circumferential limit connecting rods (21) are arranged between the two horizontal short-side connecting rods (23), and the vertical frame (1) is arranged at the upper end of the horizontal long-side connecting rods (22).

3. The photovoltaic panel bracket raw material placement frame according to claim 2, wherein two circumferential limit links (21) are respectively provided with two opposite limit wedges (211), and the inclined surfaces of the limit wedges (211) are arc-shaped.

4. The photovoltaic panel bracket raw material placement frame according to claim 2, wherein the elevation frame (1) comprises two upright posts (11) and a cross bar (12), the upright posts (11) are arranged at the connection part of the horizontal long-side connecting rod (22) and the horizontal short-side connecting rod (23), and the cross bar (12) is connected with the upper ends of the two upright posts (11) in the same elevation frame (1).

5. The photovoltaic panel bracket raw material placement frame according to claim 4, characterized in that at least two limiting protrusions (121) are arranged at the upper end of the cross bar (12), and the end part of the axial limiting rod (3) is arranged between the two limiting protrusions (121).

6. The photovoltaic panel bracket raw material placement frame according to claim 4, characterized in that the upper end of the cross bar (12) is provided with a plurality of limit grooves, and the end part of the axial limit bar (3) is in clearance fit with the limit grooves.

7. The photovoltaic panel bracket raw material placement frame according to claim 4, characterized in that an inter-elevation connecting rod (5) is arranged between two elevation frames (1), and the inter-elevation connecting rod (5) connects upright posts (11) on the same side in the two elevation frames (1).

8. The photovoltaic panel bracket raw material placement frame according to claim 2, characterized in that a vertical face reinforcing rod (13) is arranged in the vertical face frame (1), the upper end of the vertical face reinforcing rod (13) is connected with the vertical face frame (1), and the lower end of the vertical face reinforcing rod (13) is connected with the horizontal long-edge connecting rod (22) on the same side.

9. The photovoltaic panel bracket raw material placement frame according to claim 8, wherein a circumferential limit reinforcing rod (212) is further arranged in the horizontal frame (2), one end of the circumferential limit reinforcing rod (212) is connected with the circumferential limit connecting rod (21), and the other end of the circumferential limit reinforcing rod (212) is connected with the horizontal long-side connecting rod (22).

10. The photovoltaic panel bracket raw material rack according to claim 2, characterized in that the lifting device (4) is arranged at the connection of the horizontal long side connecting rod (22) and the horizontal short side connecting rod (23).