CN208299721U - A kind of no guide rail photovoltaic module support - Google Patents

Abstract

The utility model discloses a kind of no guide rail photovoltaic module support, including fulcrum, fixture, modeling wing nut, bolt and briquetting；The fixture includes fixed part and movable part, and fixed part top is equipped with the first clamping part, and movable part top is connected with the fixed part of the first clamping part bottom end by torsional spring, and movable part bottom end and fixed part bottom end constitute the second clamping part；Modeling wing nut is located at below briquetting, and bolt passes through briquetting bottom surface and connects with modeling wing nut；Briquetting, fixture and fulcrum are set gradually from top to bottom, and the first clamping part of fixture is clamped on the modeling wing nut below briquetting, and the second clamping part is clamped on fulcrum.The utility model is simple without guide rail stent structure for photovoltaic module, easy for installation, laborsaving；Without guide rail can installation photovoltaic component, reduce bracket self weight, can be suitble to improve fitting limit, stability is strong in the particular surroundings installation photovoltaic component such as color steel tile.

Description

A kind of no guide rail photovoltaic module support

Technical field

The utility model relates to a kind of no guide rail photovoltaic module supports, belong to photovoltaic module mounting technique field.

Background technique

When photovoltaic module is installed, usually first in roof attachment rail, then installation briquetting in orbit, finally by photovoltaic module It is mounted on briquetting；For color steel tile roof installation photovoltaic component, such as with conventional mounting means attachment rail, can be self-possessed excessive make It is collapsed at roof.

Utility model content

Purpose of utility model: to overcome the shortcomings of the existing technology, the utility model purport is in providing a kind of no guide rail photovoltaic module Bracket.

Technical solution: in order to solve the above technical problems, the utility model adopts the following technical solution:

A kind of no guide rail photovoltaic module support, including fulcrum, fixture, modeling wing nut, bolt and briquetting；The fixture includes Fixed part and movable part, fixed part top are equipped with the first clamping part, and movable part top and the fixed part of the first clamping part bottom end are logical It crosses torsional spring to connect, movable part bottom end and fixed part bottom end constitute the second clamping part；Modeling wing nut is located at below briquetting, and bolt passes through Briquetting bottom surface connects with modeling wing nut；Briquetting, fixture and fulcrum are set gradually from top to bottom, and the first clamping part of fixture is clamped in On modeling wing nut below briquetting, the second clamping part is clamped on fulcrum.

Working principle: when the utility model is installed without guide rail photovoltaic module support, first installing fulcrum on color steel tile roof, The second clamping part of fixture bottom end is clamped on fulcrum again, bolt connects to forming one and combine with modeling wing nut after passing through briquetting Body；The first clamping part clamping modeling wing nut on fixture top is to fixed briquetting；When installation photovoltaic component, first on color steel tile roof Matrix arrangement position of the fulcrum, adjacent two position of the fulcrum of width direction are less than photovoltaic module width, adjacent two points of length direction It sets and is less than photovoltaic module length, photovoltaic component frame is gripped by fixture top surface with briquetting.

The fulcrum is Ω shape, and the second clamping part is the Ω shape to match with fulcrum；Holding area, enhancing clamping can be increased Stability.

Above-mentioned fulcrum bottom end is fixedly connected with color steel tile roof.

The fulcrum outer surface of upper is laterally homogeneous to be equipped with strip groove, and the movable part of the second clamping part is opposite with fixed part It is laterally homogeneous on face to be equipped with raised line, it can increase frictional force, further enhance clamping stability.

It is preferred that the raised line vertical sectional shape is trapezoidal, direction or semicircle.

The briquetting includes middle briquetting and side briquetting, and middle briquetting is U-shaped structure, and U-shaped two sides top, which is equipped with, to extend outwardly Edge-pressing strip, U-shaped bottom be equipped with the matched first through hole of bolt；Side briquetting be it is step-like, side briquetting include horizontal edge, upper vertical edge and Lower vertical edge, upper vertical edge bottom end is vertical with horizontal edge one end end to be connect, and lower vertical edge top is vertical with horizontal edge other end end to be connect, horizontal Side, which is equipped with, is equipped with edge-pressing strip with matched second through-hole of bolt, upper vertical edge top；Middle briquetting is located between two pieces of photovoltaic modulies, For fixed adjacent two pieces of photovoltaic modulies simultaneously；Side briquetting is located at the outside of edge photovoltaic module, independent built-in edge photovoltaic group Part；By gripping photovoltaic component frame between press strip lower edge and fixture top surface when use.

It is wave-shaped along section under the edge-pressing strip, the frictional force of edge-pressing strip lower edge can be enhanced, enhance edge-pressing strip and photovoltaic Module frame clamping stability.

The fixture and briquetting are aluminum alloy material, and fixture and briquetting surface are all provided with using silvery white anodic oxidation, oxygen Change film thickness is 10-12um or more；It can prevent fixture and briquetting from corroding, improve fixture and briquetting service life.

The pulling capacity of the fixture is greater than 1.5KN, can prevent fixture clamping photovoltaic component frame from falling off.

The utility model has the advantages that the utility model is simple without guide rail stent structure for photovoltaic module, it is easy for installation, laborsaving；Without guide rail Can installation photovoltaic component, reduce bracket self weight, can be suitble to improve peace in the particular surroundings installation photovoltaic component such as color steel tile Range is filled, stability is strong.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is middle briquette structure schematic diagram；

Fig. 3 is the top view of Fig. 1；

Fig. 4 is side briquette structure schematic diagram；

Fig. 5 is the top view of Fig. 4；

Fig. 6 is clamp structure schematic diagram；

Fig. 7 is the utility model use state top view；

In figure: 1 being fulcrum, 2 be fixture, 3 be modeling wing nut, 4 be bolt, 5 be side briquetting, 6 be middle briquetting, 7 be color steel Tile-roofed house top, 8 be photovoltaic module, 9 be edge-pressing strip, 10 be first through hole, 11 be upper vertical edge, 12 be horizontal edge, 13 be lower vertical edge, 14 are Second through-hole, 15 be fixed part, 16 be movable part, 17 be the first clamping part, 18 be torsional spring, 19 be the second clamping part.

Specific embodiment

The utility model in order to better understand furthers elucidate the content of the utility model below with reference to embodiment, but The content of the utility model is not limited solely to the following examples.

Embodiment 1

A kind of no guide rail photovoltaic module support, including fulcrum, fixture, modeling wing nut, bolt and briquetting；The fixture includes Fixed part and movable part, fixed part top are equipped with the first clamping part, and movable part top and the fixed part of the first clamping part bottom end are logical It crosses torsional spring to connect, movable part bottom end and fixed part bottom end constitute the second clamping part；Modeling wing nut is located at below briquetting, and bolt passes through Briquetting bottom surface connects with modeling wing nut；Briquetting, fixture and fulcrum are set gradually from top to bottom, and the first clamping part of fixture is clamped in On modeling wing nut below briquetting, the second clamping part is clamped on fulcrum；Fulcrum is Ω shape, and the second clamping part is and fulcrum phase The Ω shape matched；Fulcrum outer surface of upper is laterally homogeneous to be equipped with strip groove, the movable part and fixed part opposite face of the second clamping part It is upper laterally homogeneous equipped with raised line；Raised line vertical sectional shape is trapezoidal, direction or semicircle；Briquetting includes middle briquetting and side briquetting, Middle briquetting is U-shaped structure, and U-shaped two sides top is equipped with outwardly extending edge-pressing strip, and U-shaped bottom is logical equipped with bolt matched first Hole；Side briquetting be it is step-like, side briquetting includes horizontal edge, upper vertical edge and lower vertical edge, and upper vertical edge bottom end is vertical with horizontal edge one end end Connection, lower vertical edge top is vertical with horizontal edge other end end to be connect, and horizontal edge is equipped with and matched second through-hole of bolt, upper vertical edge Top is equipped with edge-pressing strip；It is wave-shaped along section under edge-pressing strip；Fixture and briquetting are aluminum alloy material, fixture and briquetting surface It is all provided with using silvery white anodic oxidation, oxide thickness is 10-12um or more；The pulling capacity of fixture is greater than 1.5KN.

When the utility model is installed without guide rail photovoltaic module support, fulcrum first is installed on color steel tile roof, then by fixture Second clamping part of bottom end is clamped on fulcrum, and bolt connects to forming an assembly after passing through briquetting with modeling wing nut；Fixture The first clamping part clamping modeling wing nut on top is to fixed briquetting；When installation photovoltaic component, first arranged in color steel tile roof matrix Column position of the fulcrum, adjacent two position of the fulcrum of width direction are less than photovoltaic module width, and adjacent two position of the fulcrum of length direction is less than Photovoltaic module length, photovoltaic component frame are gripped by fixture top surface with briquetting；Middle briquetting be located at two pieces of photovoltaic modulies it Between, it is used for while fixing adjacent two pieces of photovoltaic modulies；Side briquetting is located at the outside of edge photovoltaic module, independent built-in edge photovoltaic Component；By gripping photovoltaic component frame between press strip lower edge and fixture top surface when use.The utility model is without guide rail light It is simple to lie prostrate component bracket structure, it is easy for installation, laborsaving；Without guide rail can installation photovoltaic component, reduce bracket self weight, can fit It closes in the particular surroundings installation photovoltaic component such as color steel tile, improves fitting limit, stability is strong.

The unmentioned technology of the utility model is referring to the prior art.

Claims (8)

1. a kind of no guide rail photovoltaic module support, it is characterised in that: including fulcrum (1), fixture (2), modeling wing nut (3), bolt (4) and briquetting；The fixture includes fixed part (15) and movable part (16), and fixed part top is equipped with the first clamping part (17), living Dynamic portion top is connected with the fixed part of the first clamping part bottom end by torsional spring (18), movable part bottom end and fixed part bottom end composition the Two clamping parts (19)；Modeling wing nut is located at below briquetting, and bolt passes through briquetting bottom surface and connects with modeling wing nut；Briquetting, fixture and Fulcrum is set gradually from top to bottom, and the first clamping part of fixture is clamped on the modeling wing nut below briquetting, the second clamping part folder It holds on fulcrum.

2. no guide rail photovoltaic module support according to claim 1, it is characterised in that: the fulcrum is Ω shape, the second folder Holding portion is the Ω shape to match with fulcrum.

3. no guide rail photovoltaic module support according to claim 2, it is characterised in that: the fulcrum outer surface of upper is lateral It is uniformly provided with strip groove, the movable part of the second clamping part is equipped with raised line with laterally homogeneous on fixed part opposite face.

4. no guide rail photovoltaic module support according to claim 3, it is characterised in that: the raised line vertical sectional shape is ladder Shape, direction or semicircle.

5. no guide rail photovoltaic module support according to any one of claims 1-4, it is characterised in that: the briquetting includes Middle briquetting (6) and side briquetting (5), middle briquetting are U-shaped structure, and U-shaped two sides top is equipped with outwardly extending edge-pressing strip, U-shaped bottom Portion is equipped with the matched first through hole of bolt；Side briquetting be it is step-like, side briquetting includes horizontal edge, upper vertical edge and lower vertical edge, upper vertical edge Bottom end is vertical with horizontal edge one end end to be connect, and lower vertical edge top is vertical with horizontal edge other end end to be connect, and horizontal edge is equipped with and spiral shell Matched second through-hole of bolt, upper vertical edge top are equipped with edge-pressing strip.

6. no guide rail photovoltaic module support according to claim 5, it is characterised in that: along section in wave under the edge-pressing strip Wave-like.

7. no guide rail photovoltaic module support according to any one of claims 1-4, it is characterised in that: the fixture and pressure Block is aluminum alloy material, and fixture and briquetting surface are all provided with using silvery white anodic oxidation, oxide thickness be 10-12um with On.

8. no guide rail photovoltaic module support according to any one of claims 1-4, it is characterised in that: the drawing of the fixture Pull out force is greater than 1.5KN.