CN104601099B - A kind of solar components frame based on 3D printing technique and solar panels assembly - Google Patents

Abstract

The invention discloses a kind of solar components frame based on 3D printing technique and solar panels assembly, the inner surface of solar components frame is provided with the assembly draw-in groove for being embedded solar components, the outer surface of solar components frame is arranged at intervals with one-level blind hole, being arranged at intervals with two grades of blind holes on the bottom surface, hole of one-level blind hole, the aperture of two grades of blind holes is uniformly distributed on the bottom surface, hole of one-level blind hole.Solar components border structure of the present invention is simple, by arranging one-level blind hole and two grades of blind holes on solar components frame, frame is made to present alveolate texture, the perfect forming ability of available 3D printing technique, by laser, metal alloy powders is coagulated the high intensity mechanical structure of synthesis approximation hollow out, can substantially save material, reduce weight, and intensity keeps constant the most excellent.

Description

A kind of solar components frame based on 3D printing technique and solar panels assembly

Technical field

The present invention relates to solar components frame, be specifically related to a kind of solar components frame based on 3D printing technique and Solar panels assembly.

Background technology

Solar components, as one of the important composition unit of photovoltaic generating system, is generally mounted to ground or easily receives Positions such as the roof of sunlight, but in wide China, the superior area of illumination condition is mainly distributed on northwest, western and middle part etc. Area, the most with a varied topography, mountain region, hills, basin, Gobi desert interlock, and more have the changeable of natural conditions, as rainy, ice and snow, wind Cruelly, arid etc..Any landform and the combination of atmospheric and climatic factors, all can affect job stability and the generating effect of solar components Rate.

Such as the Northwest, surface power station is in running, for a long time by wind, can cause overall solar components array Slight deformation, under stress extruding condition, can cause the hidden of generator unit to split, and under powerful current/voltage fall effect, pole holds Easily cause generating fault even to paralyse；Such as southwest, including island, rainfall is plentiful, if rainfall is relatively big, rainwater can be inclined by The solar components installed is flowed to lower, forms bigger mighty torrent, causes soil erosion.If things go on like this, gully can be formed.Cause This, need solar components frame of the prior art is carried out structure improvement.

Summary of the invention

It is an object of the invention to overcome the defect of prior art, it is provided that a kind of light weight, intensity are high, use environment in cold The solar components frame of not-easy-to-freeze accumulated snow.

For achieving the above object, the technical scheme is that a kind of solar components frame based on 3D printing technique, It is characterized in that, the inner surface of described solar components frame is provided with the assembly draw-in groove for being embedded solar components, institute The outer surface stating solar components frame is arranged at intervals with one-level blind hole, and the bottom surface, hole of described one-level blind hole is arranged at intervals with two Level blind hole, the aperture of described two grades of blind holes is uniformly distributed on the bottom surface, hole of one-level blind hole.

The excessive intensity that can reduce solar components frame on the contrary of aperture width, preferred technical scheme is, described one-level The aperture width of blind hole is not more than the 1/5 of corresponding solar components border width.

Impartial in order to ensure the intensity in each portion of solar components frame, preferred technical scheme is, described one-level blind hole exists The outer surface of solar components frame is arranged in arrays, or the one-level blind hole Heterogeneous Permutation of adjacent rows.

Impartial in order to ensure the intensity in each portion of solar components frame, preferred technical scheme can also be, described two grades The shape size of blind hole is consistent.

Spherical concave surface can build the mechanical structure of high intensity, and preferred technical scheme is, described one-level blind hole is ball Lacking shape or ellipse segment-shaped, the one-level blind hole aperture being positioned at solar components frame outer surface is circular or oval.

In order to optimize two grades of blind holes potentiation to solar components frame mechanical property, preferred technical side further Case is, described two grades of blind holes are taper, taper type, segment-shaped or ellipse segment-shaped.

Further preferred technical scheme is, described two grades of blind holes are positive tetrahedron, and the bottom surface, hole of described one-level blind hole is The boxwork face being combined into by several equilateral triangles.

Further preferred technical scheme is, described two grades of blind holes are positive rectangular pyramid shape or positive hexagonal pyramid shape, described one-level The bottom surface, hole of blind hole is the boxwork face being combined into by several corresponding squares or regular hexagon.

Further preferred technical scheme is, described one-level blind hole includes the first one-level blind hole and the second one-level blind hole, institute State the orifice area orifice area more than the second one-level blind hole of the first one-level blind hole, described first one-level blind hole and the second one-level Blind hole is all arranged in arrays at the outer surface of solar components frame, described second one-level blind hole be arranged on adjacent four in pros First one-level blind hole diagonal point of intersection of shape arrangement.

Another object of the present invention is to overcome the defect of prior art, it is provided that a kind of light weight, intensity height, service life are more Long solar panels assembly.

For achieving the above object, the technical scheme is that a kind of solar panels assembly, it is characterised in that include the sun Energy assembly, described solar components is embedded in the assembly draw-in groove of above-mentioned solar components frame.

Advantages of the present invention and having the beneficial effects that:

Present invention solar components based on 3D printing technique border structure is simple, by setting on solar components frame Put one-level blind hole and two grades of blind holes, make frame present alveolate texture, the perfect forming ability of available 3D printing technique, passes through Metal alloy powders is coagulated the high intensity mechanical structure of synthesis approximation hollow out by laser, it is possible to substantially save material, reduces weight, and Intensity keeps constant the most excellent, and tensile strength is generally higher than 205MPa；

When air quantity is bigger, the solar components frame of this structure can slow down wind-force to assembly as wind-force even flow plate Active force uneven, it is ensured that solar components stably and normally works；

When rainfall is bigger, the solar components frame of this structure can be by extending rainwater flowing in module frame Distance, prevents rainwater conflux, and the rainwater poured down by assembly glass surface is through low side module frame alveolate texture Retarding action, reduces the impact to ground water and soil；

In cold weather area, the solar components jamb surface of this structure is not-easy-to-freeze, it is possible to eliminate solar energy in time The accumulated snow of assembly surface, easily clears up, and can ensure that solar components normally works.

Accompanying drawing explanation

Fig. 1 is the structural representation of solar components frame embodiment 1 of the present invention；

Fig. 2 is the structural representation of solar panels assembly embodiment 1 of the present invention；

Fig. 3 is the profile of A-A in Fig. 1；

Fig. 4 is the enlarged drawing of blind hole structure in Fig. 1；

Fig. 5 is the blind hole structure schematic diagram of solar components frame embodiment 2 of the present invention；

Fig. 6 is the blind hole structure schematic diagram of solar components frame embodiment 3 of the present invention；

Fig. 7 is the blind hole structure schematic diagram of solar components frame embodiment 4 of the present invention；

Fig. 8 is the blind hole structure schematic diagram of solar components frame embodiment 5 of the present invention.

In figure: 1, solar components frame；2, assembly draw-in groove；3, solar components；4, one-level blind hole；4-1, the 1st Level blind hole；4-2, the second one-level blind hole；5, two grades of blind holes.

Detailed description of the invention

Below in conjunction with the accompanying drawings and embodiment, the detailed description of the invention of the present invention is further described.Following example are only For technical scheme is clearly described, and can not limit the scope of the invention with this.

Embodiment 1

As shown in Figures 1 to 4, the solar components frame 1 based on 3D printing technique of embodiment 1, solar components limit The inner surface of frame 1 is provided with the assembly draw-in groove 2 for being embedded solar components 3, the outer surface interval of solar components frame 1 Being provided with one-level blind hole 4, the bottom surface, hole of one-level blind hole 4 is arranged at intervals with two grades of blind holes 5, the aperture of two grades of blind holes 5 is in one-level It is uniformly distributed on the bottom surface, hole of blind hole 4.

In the present embodiment, the aperture width of one-level blind hole 4 is not more than the 1/5 of corresponding solar components frame 1 width；One Level blind hole 4 is arranged in arrays at the outer surface of solar components frame 1, and the shape size of two grades of blind holes 5 is consistent；One-level blind hole 4 For segment-shaped, one-level blind hole 4 aperture being positioned at solar components frame 1 outer surface is circle；Two grades of blind holes 5 are positive tetrahedron, The bottom surface, hole of one-level blind hole 4 is the boxwork face being combined into by several equilateral triangles.Resisting of this construction package frame Tensile strength about 210MPa.

The solar panels assembly of embodiment 1, including solar components 3, solar components 3 is embedded at above-described embodiment too In the assembly draw-in groove 2 of sun energy module frame.

Embodiment 2

As it is shown in figure 5, embodiment 2 is from the different of embodiment 1, one-level blind hole 4 Heterogeneous Permutation of adjacent rows；Two grades Blind hole 5 is positive rectangular pyramid shape, and the bottom surface, hole of one-level blind hole 4 is the boxwork become by several corresponding square composite Face.

In the boxwork face that several corresponding square composite become, the square orifice of adjacent rows can misplace Arrange.The tensile strength of this construction package frame about 215MPa.

Embodiment 3

As shown in Figure 6, embodiment 3 is from the different of embodiment 1, and one-level blind hole 4 includes the first one-level blind hole 4-1 and Two one-level blind holes 4-2, the orifice area of the first one-level blind hole 4-1 is more than the orifice area of the second one-level blind hole 4-2, the first one-level Blind hole 4-1 and the second one-level blind hole 4-2 are all arranged in arrays at the outer surface of solar components frame 1, the second one-level blind hole 4-2 It is arranged on the first one-level blind hole 4-1 diagonal point of intersection of adjacent four square arrangements；Two grades of blind holes 5 are positive hexagonal pyramid Shape, the bottom surface, hole of the first one-level blind hole 4-1 and the second one-level blind hole 4-2 is all cellular for be combined into by several regular hexagons Grid surface.The tensile strength of this construction package frame about 210MPa.

Embodiment 4

As it is shown in fig. 7, embodiment 4 is from the different of embodiment 1, two grades of blind holes 5 are hemispherical.Hemispheric two grades blind Hole 5 circular orifice is arranged in arrays in bottom surface, one-level blind hole 4 hole, it is also possible to the circular orifice of adjacent rows shifts to install.This knot The tensile strength of structure module frame about 220MPa.

Embodiment 5

As shown in Figure 8, embodiment 5 is from the different of embodiment 3, the first one-level blind hole 4-1 and the second one-level blind hole 4-2 Shape inconsistent, the first one-level blind hole 4-1 is segment-shaped, and the second one-level blind hole 4-2 is ellipse segment-shaped, and two grades of blind holes 5 are six Pyramid bench-type.The tensile strength of this construction package frame about 220MPa.

Above-mentioned solar components frame can be the reinforced solar components of attached cavity or raised line etc. in prior art Frame.

The above is only the preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For Yuan, on the premise of without departing from the technology of the present invention principle, it is also possible to make some improvements and modifications, these improvements and modifications Also should be regarded as protection scope of the present invention.

Claims (10)

1. a solar components frame based on 3D printing technique, it is characterised in that the inner side of described solar components frame Surface configuration has the assembly draw-in groove for being embedded solar components, and the outer surface of described solar components frame is arranged at intervals with one Level blind hole, the bottom surface, hole of described one-level blind hole is arranged at intervals with two grades of blind holes, and the aperture of described two grades of blind holes is in one-level blind hole Bottom surface, hole on be uniformly distributed.

Solar components frame based on 3D printing technique the most according to claim 1, it is characterised in that described one-level is blind The aperture width in hole is not more than the 1/5 of corresponding solar components border width.

Solar components frame based on 3D printing technique the most according to claim 1, it is characterised in that described one-level is blind Hole is arranged in arrays at the outer surface of solar components frame, or the one-level blind hole Heterogeneous Permutation of adjacent rows.

Solar components frame based on 3D printing technique the most according to claim 1, it is characterised in that described two grades blind The shape size in hole is consistent.

Solar components frame based on 3D printing technique the most according to claim 2, it is characterised in that described one-level is blind Hole is segment-shaped or ellipse segment-shaped, and the one-level blind hole aperture being positioned at solar components frame outer surface is circular or oval.

Solar components frame based on 3D printing technique the most according to claim 3, it is characterised in that described two grades blind Hole is taper, taper type, segment-shaped or ellipse segment-shaped.

Solar components frame based on 3D printing technique the most according to claim 6, it is characterised in that described two grades blind Hole is positive tetrahedron, and the bottom surface, hole of described one-level blind hole is the boxwork face being combined into by several equilateral triangles.

Solar components frame based on 3D printing technique the most according to claim 6, it is characterised in that described two grades blind Kong Weizheng rectangular pyramid shape or positive hexagonal pyramid shape, the bottom surface, hole of described one-level blind hole is by several the most square or positive six limits The boxwork face that shape is combined into.

Solar components frame based on 3D printing technique the most according to claim 1, it is characterised in that described one-level is blind Hole includes the first one-level blind hole and the second one-level blind hole, and the orifice area of described first one-level blind hole is more than the second one-level blind hole Orifice area, described first one-level blind hole and the second one-level blind hole are all arranged in arrays at the outer surface of solar components frame, Described second one-level blind hole is arranged on the first one-level blind hole diagonal point of intersection of adjacent four square arrangements.

10. a solar panels assembly, it is characterised in that include that solar components, described solar components are embedded such as right Require in 1 to 9 in the assembly draw-in groove of the solar components frame described in any one.