CN112575807A - High pile foundation photovoltaic support and assembling method thereof - Google Patents

Abstract

The invention discloses a high pile foundation photovoltaic support, which comprises: the connecting assembly is detachably connected to the high pile foundation; the lower part of the supporting component is detachably connected with the connecting component; a battery plate frame detachably connected to an upper end of the support assembly; a suspension member having one side suspended from the connection member and the other side suspended from a higher position of the cell panel frame; and the operating platforms are arranged on the two adjacent suspension assemblies. The supporting components are arranged on the high pile foundation, so that the assembly difficulty is reduced, in addition, each high pile foundation is provided with one suspension component, and the operation platform is paved on the two adjacent suspension components, so that the firmness of the operation platform is ensured, and meanwhile, the assembly operation of an operator on the middle part of the two high pile foundations is facilitated. The invention also discloses an assembling method of the high pile foundation photovoltaic support.

Description

High pile foundation photovoltaic support and assembling method thereof

Technical Field

The invention relates to the technical field of photovoltaic construction, in particular to a high pile foundation photovoltaic support and an assembling method thereof.

Background

With the continuous development and scale expansion of the photovoltaic industry in China, it is difficult to find a land with a relatively good terrain for building a photovoltaic project, and more photovoltaic power stations with complementation of agricultural light and fishing light are built.

The pile foundation in the complementary photovoltaic of farming light, fishing light is higher, and the distance between two adjacent pile foundations is far away, consequently leads to the construction degree of difficulty great, the operating efficiency is lower, installation quality also can not obtain complete control.

Therefore, how to design a high pile foundation photovoltaic support to reduce the construction degree of difficulty, improve the operating efficiency, improve installation quality, the key problem that technical personnel in the field need to solve urgently.

Disclosure of Invention

The invention aims to design a high pile foundation photovoltaic support, so that the construction difficulty is reduced, the operation efficiency is improved, and the installation quality is improved. In order to achieve the purpose, the invention provides the following technical scheme:

a high pile foundation photovoltaic support comprising:

the connecting assembly is detachably connected to the high pile foundation;

the lower part of the supporting component is detachably connected with the connecting component;

a battery plate frame detachably connected to an upper end of the support assembly;

a suspension member having one side suspended from the connection member and the other side suspended from a higher position of the cell panel frame;

and the operating platforms are arranged on the two adjacent suspension assemblies.

Preferably, the battery plate frame comprises an inclined beam and a cross beam, the inclined beam is detachably connected to the upper end of the support assembly, and the end of the cross beam is connected to the inclined beam; one side of the suspension component is suspended on the cross beam at the higher end of the oblique beam and is suspended at the position of the cross beam connected with the oblique beam.

Preferably, the cross beam comprises a purline and a purline support, the purline and the purline support are both connected with the oblique beam, and the purline support are connected with each other;

the purlin comprises a web; the suspension assembly comprises a first hook, and the first hook is hooked on the wing plate of the purlin.

Preferably, the supporting component includes preceding bracing, back bracing, front column and back stand, preceding bracing with back bracing is divided and is established both sides around the high pile foundation, the front column with the back stand is divided and is established both sides around the high pile foundation, the sloping with preceding bracing back bracing the front column and the connection can be dismantled to the upper end of back stand.

Preferably, coupling assembling includes last staple bolt and lower staple bolt that becomes upper and lower distribution, preceding bracing with the equal detachably of bottom of back bracing connect in on the staple bolt down, the front column with go up the staple bolt with the staple bolt can be dismantled down and be connected, the rear column with go up the staple bolt with the staple bolt can be dismantled down and be connected.

Preferably, the suspension assembly comprises a second hook, and the second hook is hooked at a position of the upper hoop, which is connected with the rear upright post.

Preferably, the suspension assembly further comprises a cross bar and two suspension rods arranged at two ends of the cross bar, and the first hook and the second hook are respectively formed at the upper parts of the two suspension rods.

Preferably, the suspension assembly further comprises telescopic legs for supporting the cross rod, and the telescopic legs are arranged at one end of the cross rod far away from the high pile foundation.

The invention also discloses an assembling method of the high pile foundation photovoltaic support, which is based on the high pile foundation photovoltaic support and comprises the following steps:

mounting a support component: connecting an upper anchor ear and a lower anchor ear to a high pile foundation through bolts, connecting the bottoms of a front inclined strut and a rear inclined strut to the lower anchor ear through bolts, connecting a front upright post to the upper anchor ear and the lower anchor ear through bolts, and connecting a rear upright post to the upper anchor ear and the lower anchor ear through bolts;

installing the oblique beam: connecting an oblique beam to the upper ends of the front oblique brace, the rear oblique brace, the front upright post and the rear upright post through bolts;

mounting a cross beam: placing purlins and purlin supports on the oblique beams in sequence, connecting the purlins with the oblique beams through bolts, and connecting the purlins with the purlin supports through bolts;

installation of the pull rod: a pull rod is arranged in the battery panel frame, and comprises a straight pull rod, a support rod and an inclined pull rod;

laying an operation platform: hanging a first hook of a suspension assembly at a position of the upper hoop, which is connected with the rear upright post, hanging a second hook on the purline, which is positioned at the high end of the oblique beam and is connected with the oblique beam, and laying a scaffold board between two adjacent suspension assemblies to form the operating platform;

the installation of rope: and a safety rope is arranged at the higher end of the oblique beam, an operator ties a safety belt, and the safety belt is hooked on the mounting rope.

Preferably, in the installation of the support assembly, after the upper hoop, the lower hoop, the front diagonal brace, the rear diagonal brace, the front column and the rear column are bolted, bolts are not locked, a certain amount of clearance is reserved, all the upper hoops in the single array are adjusted to be equal in height, all the lower hoops in the single array are adjusted to be equal in height, and then the bolts of the upper hoop, the lower hoop, the front column and the rear column are fastened;

in the installation of the oblique beams, the oblique beams on two sides are installed firstly, the angles of the front oblique brace and the rear oblique brace are adjusted so that the oblique angles of the oblique beams on two sides reach a preset angle value, then bolts of the front oblique brace and the rear oblique brace are fastened, and then the other oblique beams are installed.

According to the technical scheme, the beneficial effects of the invention mainly comprise the following points:

1. set up supporting component on a high pile foundation, reduced the equipment degree of difficulty.

2. All set up one on every high pile foundation and suspend the subassembly in midair, lay operation platform on two adjacent suspension assemblies, ensured operation platform's fastness promptly, the operation personnel of being convenient for simultaneously assemble the operation to the position in the middle of two high pile foundations.

3. The telescopic supporting legs are arranged below the cross rod, so that the stability of the operating platform is improved.

4. Go up staple bolt, lower staple bolt, front column, back stand, preceding bracing and the setting of back bracing have formed firm support to the sloping.

5. The safety rope at the high end of the oblique beam further improves the safety of operation.

Drawings

In order to more clearly illustrate the solution of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without inventive efforts.

Fig. 1 is a side view of a high pile foundation photovoltaic support according to an embodiment of the present invention;

fig. 2 is a schematic connection diagram of a stringer, a purlin, and a purlin bracket according to an embodiment of the present invention;

FIG. 3 is a top view of the upper and lower hoops and the supporting component according to one embodiment of the invention;

fig. 4 is a top view of the upper hoop, the front pillar, and the rear pillar according to an embodiment of the present invention.

Wherein, 1 is high pile foundation, 2 is preceding bracing, 3 is back bracing, 4 is the front column, 5 is the back stand, 6 is the sloping, 7 is the horizontal pole, 8 is the jib, 9 is flexible landing leg, 10 is down staple bolt, 11 is last staple bolt, 12 is the web, 13 is the pterygoid lamina, 14 is the inside flanging, 15 is the purlin support.

Detailed Description

The invention discloses a high pile foundation photovoltaic support, which reduces the construction difficulty, improves the operation efficiency and improves the installation quality. The invention also discloses an assembling method of the high pile foundation photovoltaic support.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, the terms "upper", "lower", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention but do not require that the present invention must be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

The high pile foundation photovoltaic support comprises: the battery board comprises a connecting assembly, a supporting assembly, a battery board frame, a suspension assembly and an operating platform. Wherein the connecting assembly is detachably connected to the high pile foundation 1. The lower portion of the support assembly is removably attached to the attachment assembly. The battery board frame is positioned above the supporting component and is supported by the supporting component. The panel frame is detachably connected to the upper end of the support assembly. Because the distance between two high pile foundations 1 is great, consequently the supporting component passes through coupling assembling to be connected on a high pile foundation 1, so set up, has reduced the equipment degree of difficulty, has improved the packaging efficiency.

One side of the suspension assembly is suspended from the connection assembly and the other side is suspended at a higher position of the panel frame. Each high pile foundation 1 is provided with a suspension assembly, and the invention lays an operation platform on two adjacent suspension assemblies. Because operation platform has received the support that two suspended components, consequently operation platform's structure is more stable, and factor of safety is higher. In addition, because the operation platform spans two adjacent high pile foundations 1, the operation of assembling the middle parts of the two high pile foundations 1 by operators is facilitated, the assembling difficulty is further simplified, and the assembling efficiency is improved.

The panel frame is described next: the panel frame comprises an inclined beam 6 and a cross beam. The sloping 6 detachably connects in the upper end of support assembly, and the crossbeam sets up with sloping 6 is perpendicular, and the tip of crossbeam is connected on sloping 6. One side of the suspension assembly is suspended from a cross beam at the higher end of the oblique beam 6 and at the position of the cross beam connected with the oblique beam 6.

The crossbeam includes that purlin and purlin hold in the palm 15, and the bottom of purlin and the bottom that the purlin held in the palm 15 all pass through bolted connection on sloping 6, and the belly of purlin and the belly interconnect that the purlin held in the palm 15. Along the inclined direction of the inclined beam 6 from top to bottom, the purlin bracket 15 is positioned at the lower side of the purlin, and the purlin bracket 15 plays a supporting role on the purlin.

Referring to fig. 2, the purlin of the present invention comprises a web 12 and a wing 13. The wings 13 are provided at the sides of the web 12, and the wings 13 are bent with respect to the web 12. The side of the wing 13 remote from the web 12 is provided with an inward flange 14. The suspension assembly comprises a first hook which is hung on a wing plate 13 of the purlin, and an inward flanging 14 of the wing plate 13 has a blocking effect on the first hook, so that the first hook is prevented from being separated from the purlin. So far, the suspension assembly is hung on the purlin through the first hook. It should be noted that the first hook is an inverted U-shaped hook. The inverted U-shaped hook can be stably hooked on the wing plate 13 of the purlin.

Referring now to fig. 1, 3 and 4, a support assembly is described, comprising: front bracing 2, rear bracing 3, front upright 4 and rear upright 5. The panels are arranged at an angle and are directed south, with the "front" here being the south side in reality and the "rear" here being the north side in reality. The front inclined strut 2 and the rear inclined strut 3 are respectively arranged on the front side and the rear side of the high pile foundation 1 and are inclined towards the direction away from each other. The angle of the front diagonal brace 2 and the rear diagonal brace 3 determines the inclination angle of the battery board frame. The front upright post 4 and the rear upright post 5 are respectively arranged at the front side and the rear side of the high pile foundation 1. The front inclined strut 2, the rear inclined strut 3, the front upright post 4 and the rear upright post 5 are all used for supporting an inclined beam 6. The inclined beam 6 is bolted to the upper ends of the front inclined strut 2, the rear inclined strut 3, the front upright 4 and the rear upright 5.

Referring to fig. 1, fig. 3 and fig. 4, the connecting assembly of the present invention includes an upper anchor ear 11 and a lower anchor ear 10. The staple bolt is convenient for carry out detachably with high pile foundation 1 and is connected. The bottoms of the front inclined strut 2 and the rear inclined strut 3 are both connected to the lower hoop 10 through bolts. The front upright post 4 is connected with an upper anchor ear 11 and a lower anchor ear 10 through bolts. The rear upright post 5 is connected with the upper anchor ear 11 and the lower anchor ear 10 through bolts. The stability of stand has been ensured to the setting of two staple bolts to make front column 4 and rear column 5 form firm supporting role to sloping 6.

The suspension assembly comprises a second hook which is hooked at the position of the upper hoop 11 connected with the rear upright post 5. The second hook is also of an inverted U-shaped structure.

Referring to fig. 1, the components of the suspension assembly are described as follows: the suspension assembly comprises, in addition to the first and second hooks, a cross bar 7 and two suspension bars 8. The cross rod 7 is arranged horizontally, and the two hanging rods 8 are respectively arranged at two ends of the cross rod 7. The first hook and the second hook are formed at the upper ends of the two hanger rods 8, respectively. The cross rod 7 is angle steel 40 multiplied by 4, and the suspender 8 is round steel phi 16.

The scaffold boards are laid on the two adjacent cross rods 7, so that the operation platform is formed.

In addition, hang the subassembly and still include flexible landing leg 9, flexible landing leg 9 is used for supporting horizontal pole 7, and flexible landing leg 9 sets up the one end of keeping away from high pile foundation 1 at horizontal pole 7.

The invention also arranges a safety rope at the high end of the oblique beam 6, and an operator needs to tie a safety belt which is hooked on the mounting rope, thereby further improving the safety of the operation.

The invention also discloses an assembling method of the high pile foundation photovoltaic support, which is based on the high pile foundation photovoltaic support and comprises the following steps:

mounting a support component: will go up staple bolt 11, staple bolt 10 passes through bolted connection on high pile foundation 1 down, with preceding bracing 2, bolted connection is passed through on staple bolt 10 down in the bottom of back bracing 3, pass through bolted connection on last staple bolt 11 and staple bolt 10 down with preceding stand 4, pass through bolted connection on last staple bolt 11 and staple bolt 10 down with back stand 5, and go up staple bolt 11, staple bolt 10 down, preceding bracing 2, back bracing 3, the bolted connection of preceding stand 4 and back stand 5 all will not lock, all will reserve certain spacious volume. After the support assemblies on all the high pile foundations 1 are installed, the heights of the upper anchor ears 11 and the lower anchor ears 10 in the single array are adjusted, so that the heights of all the upper anchor ears 11 in the single array are consistent, and the heights of all the lower anchor ears 10 in the single array are consistent. And then fastening the bolts of the lower anchor ear 10, the upper anchor ear 11, the front upright post 4 and the rear upright post 5.

Installation of the oblique beam 6: the inclined beam 6 is connected to the upper ends of the front inclined strut 2, the rear inclined strut 3, the front upright 4 and the rear upright 5 through bolts. In the process of mounting the inclined beams 6, the inclined beams 6 on the left and right sides are mounted, the angles of the front inclined strut 2 and the rear inclined strut 3 are adjusted to make the inclined angles of the inclined beams 6 on the two sides reach a predetermined angle value, then the bolts of the front inclined strut 2 and the rear inclined strut 3 are fastened, and then the other inclined beams 6 are mounted. In the process of installing other oblique beams 6, bolts for connecting the oblique beams 6 with the upright posts and the oblique braces are not screwed down, the positions of all the oblique beams 6 in the single array are adjusted to enable the lowest points of the oblique beams 6 to be on the same straight line, and then the bolts are locked

Mounting a cross beam: the purlines and the purlin supports 15 are sequentially placed on the oblique beams 6, the purlines and the oblique beams 6 are connected through bolts, the purlines and the purlin supports 15 are connected through the bolts, the bolts are not screwed down firstly, and after the interval between the purlines is adjusted to meet the requirement, the purlines are locked through the bolts.

Installation of the pull rod: and a pull rod is arranged in the battery panel frame and comprises a straight pull rod, a support rod and an inclined pull rod.

Laying an operation platform: the first hook of the suspension assembly is hooked at the position, connected with the rear upright post 5, of the upper hoop 11, the second hook is hooked on the purline located at the high end of the oblique beam 6 and is hooked at the position, connected with the oblique beam 6, of the purline, and the scaffold board is laid between the two adjacent cross rods 7 to form the operation platform. The end of the scaffold board is bound on the cross bar 7 through an aluminum wire. When the scaffold is operated in rainy days, hemp sheets or wood springboards are bound on the surfaces of the scaffold boards so as to avoid skidding. The installation load of each span of the operating platform cannot exceed 1KN per square meter, namely, the number of operators on each span of the operating platform cannot exceed 2.

The installation of rope: the safety rope is arranged at the higher end of the oblique beam 6, the safety belt is tied by the operating personnel, and the safety belt is hooked on the installation rope.

Finally, it should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a high pile foundation photovoltaic support which characterized in that includes:

the connecting assembly is detachably connected to the high pile foundation;

the lower part of the supporting component is detachably connected with the connecting component;

a battery plate frame detachably connected to an upper end of the support assembly;

a suspension member having one side suspended from the connection member and the other side suspended from a higher position of the cell panel frame;

and the operating platforms are arranged on the two adjacent suspension assemblies.

2. The high pile foundation photovoltaic support of claim 1, wherein the panel frame includes a diagonal beam and a cross beam, the diagonal beam being removably connected to an upper end of the support assembly, an end of the cross beam being connected to the diagonal beam; one side of the suspension component is suspended on the cross beam at the higher end of the oblique beam and is suspended at the position of the cross beam connected with the oblique beam.

3. The high pile foundation photovoltaic support of claim 2, wherein the beam comprises a purlin and a purlin bracket, the purlin and the purlin bracket are both connected with the inclined beam, and the purlin bracket are connected with each other;

the purlin comprises a web; the suspension assembly comprises a first hook, and the first hook is hooked on the wing plate of the purlin.

4. The high pile foundation photovoltaic support of claim 2, wherein the support assembly includes a front inclined strut, a rear inclined strut, a front column and a rear column, the front inclined strut is arranged at the front side and the rear side of the high pile foundation, the front column is arranged at the front side and the rear side of the high pile foundation, and the inclined beam is detachably connected with the front inclined strut, the rear inclined strut, the front column and the upper end of the rear column.

5. The high pile foundation photovoltaic support of claim 4, wherein the connecting assembly comprises an upper hoop and a lower hoop which are vertically distributed, the bottoms of the front inclined strut and the rear inclined strut are detachably connected to the lower hoop, the front upright post is detachably connected to the upper hoop and the lower hoop, and the rear upright post is detachably connected to the upper hoop and the lower hoop.

6. The high pile foundation photovoltaic support of claim 5, wherein the suspension assembly includes a second hook that is hooked at a location of the upper hoop that is connected to the rear upright.

7. The high pile foundation photovoltaic support of claim 4, wherein the suspension assembly further comprises a cross bar and two hanger rods disposed at both ends of the cross bar, the first and second hooks being formed at upper portions of the two hanger rods, respectively.

8. The high pile foundation photovoltaic support of claim 7, wherein the suspension assembly further comprises telescoping legs for supporting the cross-bar, and the telescoping legs are disposed at an end of the cross-bar remote from the high pile foundation.

9. The assembling method of the high pile foundation photovoltaic support is based on the high pile foundation photovoltaic support and is characterized by comprising the following steps of:

mounting a support component: connecting an upper anchor ear and a lower anchor ear to a high pile foundation through bolts, connecting the bottoms of a front inclined strut and a rear inclined strut to the lower anchor ear through bolts, connecting a front upright post to the upper anchor ear and the lower anchor ear through bolts, and connecting a rear upright post to the upper anchor ear and the lower anchor ear through bolts;

installing the oblique beam: connecting an oblique beam to the upper ends of the front oblique brace, the rear oblique brace, the front upright post and the rear upright post through bolts;

mounting a cross beam: placing purlins and purlin supports on the oblique beams in sequence, connecting the purlins with the oblique beams through bolts, and connecting the purlins with the purlin supports through bolts;

installation of the pull rod: a pull rod is arranged in the battery panel frame, and comprises a straight pull rod, a support rod and an inclined pull rod;

laying an operation platform: hanging a first hook of a suspension assembly at a position of the upper hoop, which is connected with the rear upright post, hanging a second hook on the purline, which is positioned at the high end of the oblique beam and is connected with the oblique beam, and laying a scaffold board between two adjacent suspension assemblies to form the operating platform;

the installation of rope: and a safety rope is arranged at the higher end of the oblique beam, an operator ties a safety belt, and the safety belt is hooked on the mounting rope.

10. The method for assembling a high pile foundation photovoltaic support according to claim 9,

during installation of the supporting assembly, after the upper anchor ear, the lower anchor ear, the front inclined strut, the rear inclined strut, the front upright post and the rear upright post are connected through bolts, the bolts do not need to be locked, a certain amount of clearance is reserved, all the upper anchor ears in the single array are adjusted to be equal in height, all the lower anchor ears in the single array are adjusted to be equal in height, and then the upper anchor ears, the lower anchor ears, the front upright post and the rear upright post are fastened through the bolts;

in the installation of the oblique beams, the oblique beams on two sides are installed firstly, the angles of the front oblique brace and the rear oblique brace are adjusted so that the oblique angles of the oblique beams on two sides reach a preset angle value, then bolts of the front oblique brace and the rear oblique brace are fastened, and then the other oblique beams are installed.

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