CN209170281U - The mounting structure of photovoltaic bracket - Google Patents

Abstract

The utility model discloses a kind of mounting structure of photovoltaic bracket, including the rear column, leveling beam and drawing piece for being arranged on flat roof, the rear column is vertically arranged, the leveling beam is obliquely installed, the bottom end of rear column and leveling beam is fixedly connected with the flat roof, the top of leveling beam is connect with the top of the rear column, side of the rear column far from leveling beam is arranged in drawing piece, drawing piece is obliquely installed and the top of drawing piece and the top of leveling beam connect, and the bottom end of drawing piece is connect with flat roof.Leveling beam one end is fixed on flat roof, it raises on the top that the other end is fixed on rear column, inclined drawing piece is arranged far from the side of leveling beam in rear column, drawing piece top is connect with leveling beam, bottom end is connect with flat roof, and drawing piece is equivalent to the rear that mounting assembly is arranged in, increase photovoltaic module and entire bracket from back wind resistance, not needing increase counterweight can achieve the purpose that wind resistance is good, so as to which the load-bearing requirements to roof are effectively reduced.

Description

The mounting structure of photovoltaic bracket

Technical field

The utility model relates to mounting structures, more particularly to a kind of mounting structure of photovoltaic bracket.

Background technique

Photovoltaic bracket is generally located on roof, for carrying photovoltaic module；And photovoltaic bracket generally pass through column, tiltedly Support, leveling beam, purlin and briquetting etc. are mounted on plane roof, and the mounting means wind resistance is poor, are needed increased counterweight high, are led Cause roof load-bearing requirements high.

Utility model content

Based on this, it is necessary to provide a kind of mounting structure of photovoltaic bracket, not only wind resistance is good, but also does not need to increase Counterweight can reduce the load-bearing requirements to roof.

Its technical solution is as follows:

A kind of mounting structure of photovoltaic bracket, including the rear column, leveling beam and drawing piece for being arranged on flat roof, The rear column is vertically arranged, and the leveling beam is obliquely installed, the bottom end of the rear column and leveling beam with the flat roof It is fixedly connected, the top of the leveling beam is connect with the top of the rear column, and the drawing piece setting is remote in the rear column Side from leveling beam, the drawing piece is obliquely installed and the top of the drawing piece is connect with the top of the leveling beam, institute The bottom end for stating drawing piece is connect with the flat roof.

The mounting structure of above-mentioned photovoltaic bracket, leveling beam one end are fixed on flat roof, and the other end is fixed on rear column Top is raised, and is formed skewed, while being arranged inclined drawing piece far from the side of leveling beam in rear column, drawing piece top with Leveling beam connection, bottom end is connect with flat roof, and when photovoltaic module is mounted on leveling beam, drawing piece is equivalent to setting and is installing The rear of component, increase photovoltaic module and entire bracket from back wind resistance, wind resistance can be reached by not needing to increase counterweight Good purpose, so as to which the load-bearing requirements to roof are effectively reduced.

The mounting structure of the photovoltaic bracket further includes diagonal brace in one of the embodiments, the top of the diagonal brace with The middle part of the leveling beam connects, and the bottom end of the diagonal brace connect with the flat roof and is arranged close to the rear column.

The mounting structure of the photovoltaic bracket further includes be arranged at intervals on flat roof in one of the embodiments, One concrete foundation and the second concrete foundation, the first connector being fixed in the first concrete foundation and to be fixed on second mixed The bottom end of the second connector on solidifying earth foundation, the leveling beam is connect by the first fastener with first connector, institute The bottom end for stating rear column is connect by the second fastener with second connector.

The mounting structure of the photovoltaic bracket further includes third connector and the 4th connection in one of the embodiments, Part, the third connector are fixed on the top of the leveling beam, the top of the rear column by third fastener with it is described The connection of third connector, the 4th connector are fixed on the middle part of the leveling beam, and the top of the diagonal brace is tight by the 4th Firmware is connect with the 4th connector, and the bottom end of the diagonal brace is connect by the 5th fastener with second connector.

In one of the embodiments, first fastener, the second fastener, third fastener, the 4th fastener and 5th fastener is clamping screw.

The mounting structure of the photovoltaic bracket further includes the 5th connector and the 6th fastening in one of the embodiments, Part, the 5th connector are equipped with mounting hole, and the 6th fastener passes through the mounting hole and locks the 5th connector Tightly on the flat roof, the bottom end of the drawing piece is connect with the 5th connector.

The 6th fastener is expansion bolt in one of the embodiments,.

The 5th connector includes mounting plate and pull ring in one of the embodiments, and the mounting hole is provided with institute It states on mounting plate, and the pull ring is fixedly connected with the mounting plate, the bottom end of the drawing piece is connect with the pull ring.

The drawing piece is wirerope, angle steel or C-type steel in one of the embodiments,.

The angle on the drawing piece and the flat roof is 60 degree in one of the embodiments, the drawing piece and institute The angle for stating leveling beam is 90 degree.

The leveling beam is fixed with far from the side on the flat roof for disposing photovoltaic in one of the embodiments, The steel purlin item of component.

Detailed description of the invention

Fig. 1 is the side schematic view of the mounting structure of photovoltaic bracket described in an embodiment.

Description of symbols:

1, flat roof, 2, photovoltaic module, 10, rear column, 20, leveling beam, 30, drawing piece, 40, diagonal brace, the 50, first coagulation Earth foundation, the 60, second concrete foundation, the 710, first connector, the 720, second connector, 730, third connector, 740, Four connectors, the 750, the 5th connector, 752, mounting plate, 754, pull ring, 80, steel purlin item.

Specific embodiment

It is below in conjunction with attached drawing and specifically real for the purpose of this utility model, technical solution and advantage is more clearly understood Mode is applied, the utility model is described in further detail.It should be understood that the specific embodiments described herein Only to explain the utility model, the protection scope of the utility model is not limited.

It should be noted that when element is referred to as " being fixedly arranged on ", " being set to " or " install in " another element, it can be with Directly on the other element or there may also be elements placed in the middle.When an element is considered as " connection " another yuan Part, it can be directly to another element or may be simultaneously present centering elements；One element and another element The concrete mode being fixedly connected can be achieved by the prior art, and details are not described herein, it is preferred to use the fixation side of threaded connection Formula.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein packet Include any and all combinations of one or more related listed items.

" first " described in the utility model, " second " do not represent specific quantity and sequence, are only used for title It distinguishes.

As shown in Figure 1, an embodiment provides a kind of mounting structure of photovoltaic bracket, including for being arranged on flat roof 1 Rear column 10, leveling beam 20 and drawing piece 30, the rear column 10 is vertically arranged, and the leveling beam 20 is obliquely installed, described The bottom end of rear column 10 and leveling beam 20 is fixedly connected with the flat roof 1, and the top of the leveling beam 20 is stood afterwards with described The top of column 10 connects, and the side of the rear column 10 far from leveling beam 20, the drawing piece 30 is arranged in the drawing piece 30 Be obliquely installed and the top of the drawing piece 30 connect with the top of the leveling beam 20, the bottom end of the drawing piece 30 with it is described Flat roof 1 connects.

The mounting structure of this implementation photovoltaic bracket, 20 one end of leveling beam is fixed on flat roof 1, the other end is solid The top for being scheduled on rear column 10 is raised, and is formed skewed while inclined in side setting of the rear column 10 far from leveling beam 20 Drawing piece 30,30 top of drawing piece are connect with leveling beam 20, and bottom end is connect with flat roof 1, when photovoltaic module 2 is mounted on leveling beam When on 20, drawing piece 30 is equivalent to the rear that mounting assembly is arranged in, increase photovoltaic module 2 and entire bracket from back wind resistance Property, not needing increase counterweight can achieve the purpose that wind resistance is good, so as to which the load-bearing requirements to roof are effectively reduced.

The drawing piece 30 is wirerope, optional 5mm in one of the embodiments,²Wirerope.In other embodiments In, the drawing piece 30 is angle steel or C-type steel.

Further, the mounting structure of the photovoltaic bracket further includes diagonal brace 40, and the top of the diagonal brace 40 is looked for described The middle part of flat-topped ridge 20 connects, and the bottom end of the diagonal brace 40 connect with the flat roof 1 and is arranged close to the rear column 10.Pass through Setting sets diagonal brace 40 in the middle part of leveling beam 20, increases the stability of entire mid-stent, and the bottom end of diagonal brace 40 is positioned close to The position of rear column 10 makes diagonal brace 40, rear column 10 and 20 three of leveling beam connect to form triangle, further increases whole steady It is qualitative, improve wind resistance.In one embodiment, between rear column 10 and leveling beam 20 formed 60 degree of angles, diagonal brace 40, after It is equilateral triangle that column 10 and 20 three of leveling beam, which connect the triangle to be formed,.

The mounting structure of the photovoltaic bracket further includes being arranged at intervals on flat roof 1 in one of the embodiments, First concrete foundation 50 and the second concrete foundation 60, the first connector 710 being fixed in the first concrete foundation 50 and The bottom end of the second connector 720 being fixed in the second concrete foundation 60, the leveling beam 20 passes through the first fastener and institute The connection of the first connector 710 is stated, the bottom end of the rear column 10 is connect by the second fastener with second connector 720. So set, being easily installed while stability is good.Optionally, first fastener and the second fastener are clamping screw Or the chemical bolt that other performances are stable, intensity is high.First connector 710 passes through foundation bolt or expanding screw bolt-lock Gu second connector 720 is locked by foundation bolt or the locking such as expansion bolt is the in the first concrete foundation 50 In two concrete foundations 60.

The mounting structure of the photovoltaic bracket further includes that third connector 730 and the 4th connect in one of the embodiments, Fitting 740, the third connector 730 are fixed on the top of the leveling beam 20, and the top of the rear column 10 passes through third Fastener is connect with the third connector 730, and the 4th connector 740 is fixed on the middle part of the leveling beam 20, described The top of diagonal brace 40 is connect by the 4th fastener with the 4th connector 740, and the bottom end of the diagonal brace 40 is tight by the 5th Firmware is connect with second connector 720.By third connector 730 and the 4th connector 740, convenient for leveling beam 20 and tiltedly Being fixedly connected between support 40 and rear column 10, quick and easy for installation, stability is good；The bottom end of diagonal brace 40 is locked at the second company On fitting 720, make to form a fixed connection between diagonal brace 40 and rear column 10, is both support with the second concrete foundation 60. Optionally, the third fastener, the 4th fastener and the 5th fastener are that clamping screw or other performances stabilization, intensity are high Chemical bolt.The third connector 730 and the 4th connector 740 are consolidated in such a way that welding, riveting or screw connect It is scheduled on leveling beam 20.

The mounting structure of the photovoltaic bracket further includes that the 5th connector 750 and the 6th is tight in one of the embodiments, Firmware, the 5th connector 750 are equipped with mounting hole, and the 6th fastener passes through the mounting hole for the 5th connection Part 750 is locked on the flat roof 1, and the bottom end of the drawing piece 30 is connect with the 5th connector 750.Connect by the 6th Fitting connect the bottom end of drawing piece 30 with flat roof 1, and the tie point on traction piece and flat roof 1 is lower than leveling beam 20 and rear column 10 with the tie point on flat roof 1, make traction piece there is a power to pull leveling beam 20 towards flat roof 1, further increase wind resistance. Optionally, the 6th fastener is expansion bolt.5th connector 750 includes mounting plate 752 and pull ring 754, described Mounting hole is provided on the mounting plate 752, and the pull ring 754 is fixedly connected with the mounting plate 752, the bottom of the drawing piece End is connect with the pull ring 754.Specifically, the 5th connector 750 is the steel plate with mounting hole.When the drawing piece is wirerope When, locking can quickly and easily be connect with wirerope by the pull ring 754, be also convenient for adjusting the length of wirerope.

Optionally, the angle of the drawing piece 30 and the flat roof 1 is 60 degree, the drawing piece 30 and the leveling beam 20 angle is 90 degree.I.e. drawing piece 30 is vertical with leveling beam 20 connect, and the angle on drawing piece 30 and the flat roof 1 is 60 Degree, such wind resistance are more preferable.

Further, photovoltaic module 2, and photovoltaic module are easily installed in 30 degree of connections between leveling beam 20 and flat roof 1 2 are arranged towards south, and the photovoltaic module being mounted on leveling beam 20 2 is enable preferably to absorb sunlight.Further, the leveling beam 20 sides far from the flat roof 1 are fixed with the steel purlin item 80 for disposing photovoltaic module 2.By steel purlin item 80 convenient for pair Photovoltaic module 2 carries out installation fixation.According to actual needs, can also by between drawing piece 30 and leveling beam 20, drawing piece 30 and institute The angle stated between angle and leveling beam 20 and flat roof 1 between flat roof 1 is set as other angles.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of mounting structure of photovoltaic bracket, which is characterized in that including rear column, the leveling beam for being arranged on flat roof And drawing piece, the rear column is vertically arranged, and the leveling beam is obliquely installed, and the bottom end of the rear column and leveling beam is and institute It states flat roof to be fixedly connected, the top of the leveling beam is connect with the top of the rear column, and the drawing piece is arranged described Side of the rear column far from leveling beam, the drawing piece is obliquely installed and the top on the top of the drawing piece and the leveling beam Connection, the bottom end of the drawing piece is connect with the flat roof.

2. the mounting structure of photovoltaic bracket according to claim 1, which is characterized in that it further include diagonal brace, the top of the diagonal brace End is connect with the middle part of the leveling beam, and the bottom end of the diagonal brace connect with the flat roof and is arranged close to the rear column.

3. the mounting structure of photovoltaic bracket according to claim 2, which is characterized in that further include being arranged at intervals on flat roof The first concrete foundation and the second concrete foundation, the first connector for being fixed in the first concrete foundation and be fixed on the The bottom end of the second connector in two concrete foundations, the leveling beam is connected by the first fastener and first connector It connects, the bottom end of the rear column is connect by the second fastener with second connector.

4. the mounting structure of photovoltaic bracket according to claim 3, which is characterized in that further include that third connector and the 4th connect Fitting, the third connector are fixed on the top of the leveling beam, and the top of the rear column passes through third fastener and institute The connection of third connector is stated, the 4th connector is fixed on the middle part of the leveling beam, and the top of the diagonal brace passes through the 4th Fastener is connect with the 4th connector, and the bottom end of the diagonal brace is connect by the 5th fastener with second connector.

5. the mounting structure of photovoltaic bracket according to claim 4, which is characterized in that first fastener, the second fastening Part, the third fastener, the 4th fastener and the 5th fastener are clamping screw.

6. the mounting structure of any one of -5 photovoltaic brackets according to claim 1, which is characterized in that further include the 5th connector And the 6th fastener, the 5th connector are equipped with mounting hole, the 6th fastener passes through the mounting hole for described the Five connectors are locked on the flat roof, and the bottom end of the drawing piece is connect with the 5th connector.

7. the mounting structure of photovoltaic bracket according to claim 6, which is characterized in that the 6th fastener is expanding screw Bolt.

8. the mounting structure of photovoltaic bracket according to claim 6, which is characterized in that the 5th connector includes mounting plate And pull ring, the mounting hole are provided on the mounting plate, and the pull ring is fixedly connected with the mounting plate, the drawing piece Bottom end connect with the pull ring.

9. the mounting structure of any one of -5 photovoltaic brackets according to claim 1, which is characterized in that the drawing piece is steel wire Rope, angle steel or C-type steel.

10. the mounting structure of any one of -5 photovoltaic brackets according to claim 1, which is characterized in that the drawing piece and institute The angle for stating flat roof is 60 degree, and the angle of the drawing piece and the leveling beam is 90 degree.