CN221193420U - Mounting structure of photovoltaic support and tubular pile - Google Patents

Abstract

The technical scheme of the utility model provides a mounting structure of a photovoltaic bracket and a tubular pile, which comprises a pile body, a bracket body and a hoop assembly, wherein an embedding hole is formed in the outer side of the pile body; the frame body is provided with a cross stretcher, and the cross stretcher is pressed on the top of the pile body; the staple bolt is including deciding half hoop, moving half hoop and embedded rod, decide half hoop and fix the bottom of support body, move half hoop detachable with decide half hoop and be connected, just decide half hoop with all be provided with the embedded rod on the moving half hoop, the embedded rod with the embedding hole grafting. According to the photovoltaic support, the embedded rod is arranged on the anchor ear, the embedded hole is formed in the pile body in a matched mode, so that when the bolt connection of the anchor ear is loosened, the transverse stretcher arranged on the support body can be matched, enough supporting force is provided for the support body above the support body, and in the windy weather, a certain anchoring force is provided in a mode that the embedded rod is inserted into the embedded hole, and the photovoltaic support is prevented from being directly turned over.

Description

Mounting structure of photovoltaic support and tubular pile

Technical Field

The utility model relates to the technical field of photovoltaic modules, in particular to a mounting structure of a photovoltaic bracket and a tubular pile.

Background

The photovoltaic bracket is required to be combined with engineering to actually select materials, design structural schemes and constructional measures, so that the requirements of strength, stability and rigidity of the bracket structure in the transportation, installation and use processes are met, and the requirements of earthquake resistance, wind resistance, corrosion resistance and the like are met.

At present, the frame body of the photovoltaic bracket is connected with the tubular pile by adopting hoops in most cases, and the fastening structure of the core of the photovoltaic bracket is that bolts lock the hoops so as to enable the photovoltaic bracket to be hooped on the tubular pile.

With the above prior art, there are also the following drawbacks: because the anchor ear mainly provides the dynamics of hooping by the bolt, and the bolt is used for a long time down, takes place not hard up under the exogenic action easily, and not hard up then can lead to the anchor ear to connect unstably, if meet the windy weather this moment, easily lead to the photovoltaic support to be lifted. Therefore, how to improve the stability of the connection between the frame body of the photovoltaic bracket and the tubular pile is a technical problem to be solved.

Disclosure of utility model

In view of the above, it is necessary to provide a mounting structure for a photovoltaic bracket and a tubular pile, which solves the technical problem of how to improve the connection stability between the bracket body of the photovoltaic bracket and the tubular pile in the prior art.

In order to achieve the technical purpose, the technical scheme of the utility model provides a mounting structure of a photovoltaic bracket and a tubular pile, which comprises the following components:

The pile body is provided with an embedding hole at the outer side;

The frame body is provided with a cross stretcher, and the cross stretcher is pressed on the top of the pile body; and

The anchor ear assembly, the anchor ear is including deciding half hoop, moving half hoop and embedded rod, decide half hoop and fix the bottom of support body, move half hoop detachable with decide half hoop and be connected, just decide half hoop with all be provided with the embedded rod on the moving half hoop, the embedded rod with the embedding hole grafting.

Further, the embedded hole penetrates through the pile body from left to right, a through hole is further formed in the top of the pile body, the through hole extends downwards and is communicated with the embedded hole, a reinforcing rod piece is detachably arranged at the bottom of the cross arm frame, and the reinforcing rod piece is inserted into the inner side of the through hole.

Furthermore, the opposite sides of the two embedded rods are respectively extended with a lamination board, the two lamination boards are in a vertically staggered lamination shape, the top of each lamination board is provided with an anchoring hole, and the reinforcing rod piece is spliced with the anchoring hole.

Further, the frame body comprises an upright post, an inclined strut and an inclined beam, wherein a pair of upright posts are vertically arranged at the bottom of the inclined beam, the space between the upright posts is matched with the outer diameter of the pile body, the bottom ends of the upright posts are connected with the fixed half hoops, the top ends of the inclined strut are respectively connected with two sides of the bottom of the inclined beam, and the bottom ends of the inclined strut are respectively connected with two sides of the fixed half hoops.

Further, the reinforcement rod piece comprises a rod body, a threaded portion is arranged on the rod body, a threaded hole is formed in the top of the transverse stretcher, and the rod body penetrates through the threaded hole downwards and is in threaded connection with the threaded hole through the threaded portion.

Further, the fixed half hoop is connected with the movable half hoop, the upright post is connected with the inclined beam, the upright post is connected with the fixed half hoop, the inclined strut is connected with the inclined beam, and the inclined strut is connected with the fixed half hoop through bolt assemblies.

Furthermore, the shape of the cross stretcher is cross, and the two ends of the cross stretcher are provided with U-shaped clamps, and locking bolts are connected to the U-shaped clamps in a threaded manner.

Further, the bottom of the transverse stretcher is provided with a rubber round protrusion, and the rubber round protrusion is elastically clamped in the through hole.

Further, an anti-slip layer is arranged on the outer side of the embedded rod.

Further, an elastic layer is arranged on the outer side of the rod body.

Compared with the prior art, the utility model has the beneficial effects that: through setting up the embedded pole on the staple bolt, the cooperation sets up the embedding hole on the pile body, can take place not hard up in the bolted connection of staple bolt, the horizontal stretcher that sets up on the cooperation support body provides sufficient holding power to the support body of top to in the strong wind weather, with the mode that the embedded pole inserted the embedding hole, provided certain anchoring force, prevent that the photovoltaic support from directly being lifted the roll over, promoted the connection steadiness between support body and the tubular pile of photovoltaic support.

Drawings

Fig. 1 is a structural three-dimensional view of a mounting structure of a photovoltaic bracket and a pipe pile according to an embodiment of the present utility model;

fig. 2 is a three-dimensional exploded view of a mounting structure of a photovoltaic bracket and a pipe pile according to an embodiment of the present utility model;

fig. 3 is a front cross-sectional view of a mounting structure of a photovoltaic bracket and a pipe pile according to an embodiment of the present utility model;

FIG. 4 is a structural three-dimensional view of a cross brace and reinforcement bar according to an embodiment of the present utility model;

in the figure: 1. a pile body; 101. an insertion hole; 102. a through hole;

2. a frame body; 21. a column; 22. diagonal bracing; 23. a sloping beam;

3. A transverse stretcher; 301. a U-shaped card; 302. a locking bolt; 303. rubber round protrusions;

4. The anchor ear assembly; 41. fixing a half hoop; 42. a movable half hoop; 43. an embedded rod; 44. laminating; 401. an anchor hole;

5. reinforcing the rod piece; 51. a rod body.

Detailed Description

The following detailed description of preferred embodiments of the utility model is made in connection with the accompanying drawings, which form a part hereof, and together with the description of the embodiments of the utility model, are used to explain the principles of the utility model and are not intended to limit the scope of the utility model.

As shown in fig. 1-4, the utility model provides a mounting structure of a photovoltaic bracket and a tubular pile, which comprises a pile body 1, a frame body 2 and a hoop assembly 4, wherein an embedding hole 101 is formed in the outer side of the pile body 1, and the embedding hole 101 can be formed in one of two sides of the pile body 1 respectively, or can be formed with a left-right through embedding hole 101; the transverse stretcher 3 is arranged on the frame body 2, the transverse stretcher 3 is pressed on the top of the pile body 1, the mounting height between the frame body 2 and the pile body 1 is convenient to control through the transverse stretcher 3 pressed on the top of the pile body 1, and the transverse stretcher 3 can split the stress of the anchor ear and improve the stability; the anchor ear includes and decides half hoop 41, moves half hoop 42 and embedded rod 43, decide half hoop 41 and fix the bottom of support body 2, move half hoop 42 detachable with decide half hoop 41 and be connected, decide half hoop 41 and move half hoop 42 and form the annular surrounding to pile body 1 and embrace, just decide half hoop 41 with all be provided with embedded rod 43 on moving half hoop 42, embedded rod 43 with embedding hole 101 pegging graft, insert to embedding hole 101 hole through embedded rod 43, when deciding half hoop 41 and moving half hoop 42 bolted connection and taking place not hard up, cooperate horizontal stretcher 3 to provide sufficient holding power to support body 2 of top to in the windy weather, provide certain anchoring force, prevent that the photovoltaic support from directly being lifted to the steadiness of being connected between support body and the tubular pile of photovoltaic support has been promoted.

It will be appreciated that under the apportioned stress of the cross arm frame 3 and the embedded rod 43, the acting force applied to the bolt connection between the fixed half hoop 41 and the movable half hoop 42 is reduced, and the bolt fastening is easier to maintain than the case that only the position is fastened and supported; in addition, if the bolt connected thereto is loosened, the cross stretcher 3 and the insertion rod 43 have sufficient support, and the insertion rod 43 is inserted into the insertion hole 101, so that the fixed half hoop 41 and the movable half hoop 42 can be prevented from rotating after being loosened, and the insertion rod 43 has an anchoring effect and improves stability when the strong wind forms an upward lifting force on the frame body 2.

In a certain embodiment, in order to provide a certain anchoring effect at the position of the cross stretcher 3, the embedded hole 101 is a hole penetrating through the pile body 1 from left to right, the top of the pile body 1 is further provided with a through hole 102, the through hole 102 extends downwards and is communicated with the embedded hole 101 to form an inverted T-shaped hole, the bottom of the cross stretcher 3 is detachably provided with a reinforcing rod 5, and the reinforcing rod 5 is inserted into the inner side of the through hole 102, so that the cross stretcher 3 also has a certain anchoring effect in a manner that the reinforcing rod 5 is inserted into the inner side of the through hole 102.

Further, in order to promote the staple bolt stability of the fixed half hoop 41 and the movable half hoop 42, two opposite sides of the embedded rods 43 are all extended with the lamination plate 44, two lamination plates 44 are in a vertically staggered lamination shape, the top of the lamination plate 44 is provided with the anchoring hole 401, the reinforcing rod piece is inserted into the anchoring hole 401, the reinforcing rod piece 5 penetrates through the through hole 102 downwards and extends into the embedded hole 101, the anchoring hole 401 on the vertically staggered lamination plate 44 is penetrated in sequence in the embedded hole 101, so that the relative position between the two embedded rods 43 is limited, and the effect of preventing the looseness between the fixed half hoop 41 and the movable half hoop 42 is achieved when the bolt connection between the fixed half hoop 41 and the movable half hoop 42 loosens.

It will be appreciated that, when the bolts are loosened, there will be a gap between the nut and the bolts and the fixed and movable half hoops 41 and 42, and that, because the reinforcement bar 5 is inserted into the anchor hole 401, the spacing between the fixed and movable half hoops 41 and 42 is limited, so that when the bolts are loosened, the spacing between the fixed and movable half hoops 41 and 42 is not easily further enlarged, and the state of being tightly attached to the pile body 1 is maintained.

Further, in order to make the frame body 2 have sufficient structural strength, the frame body 2 includes a vertical column 21, a diagonal brace 22 and a diagonal beam 23, a pair of vertical columns 21 are vertically arranged at the bottom of the diagonal beam 23, the space between the vertical columns matches the outer diameter of the pile body 1, a notch mounted on the pile body 1 is reserved, the bottom ends of the vertical columns are connected with the fixed half hoops 41, the top ends of the diagonal braces 22 are respectively connected with two sides of the bottom of the diagonal beam 23, the bottom ends of the diagonal braces 22 are respectively connected with two sides of the fixed half hoops 41, and the frame body 2 having sufficient strength is formed under the structural cooperation of the vertical columns 21, the diagonal braces 22 and the diagonal beam 23.

Further, in order to facilitate the insertion and disassembly of the reinforcement rod, the reinforcement rod 5 comprises a rod body 51, a threaded portion is formed in the rod body 51, a threaded hole is formed in the top of the cross arm frame 3, the rod body 51 penetrates through the threaded hole downwards and is in threaded connection with the threaded hole through the threaded portion, when the reinforcement rod is installed, the cross stretcher 3 is attached to the top end of the pile body 1 firstly, the rod body 51 penetrates through the threaded hole downwards, the threaded portion of the reinforcement rod is in threaded connection with the threaded hole, and the insertion depth of the rod body 51 is adjusted.

It will be appreciated that in order to facilitate control of the insertion depth of the rod 51, a nut may be added to the threaded portion of the rod 51 near its top end to align the insertion depth.

Further, the fixed half hoop 41 and the movable half hoop 42, the upright 21 and the diagonal beam 23, the upright 21 and the fixed half hoop 41, the diagonal brace 22 and the diagonal beam 23, and the diagonal brace 22 and the fixed half hoop 41 are all connected by bolt assemblies.

It can be appreciated that the bolt assembly includes a screw and a nut, that is, the screw penetrates two or more parts to be connected, the nut is screwed on the screw, and forms two or more fastening on two sides of the parts with the head of the screw, which is a common detachable connection manner in the art, and will not be repeated herein.

Further, in order to be adjustable to the installation height, the shape of cross arm frame 3 is the cross, just the both ends of cross arm frame 3 are provided with U type card 301, threaded connection has locking bolt 302 on the U type card 301, and wherein, U type card 301 suit is on stand 21 to can slide from top to bottom along stand 21, when sliding to the required height, screw locking bolt 302, make its one end that is close to stand 21 hug closely with the stand 21 surface, fix a position.

It can be understood that a plurality of positioning holes may be formed on the upright post 21 in an equidistant arrangement, so that the locking bolt 302 penetrates the U-shaped card 301 and is inserted into the positioning holes to perform position positioning, thereby obtaining a more stable position limiting effect.

Further, in order to form preliminary chucking in the installation, the bottom of the cross arm frame 3 is provided with a rubber dome 303, the rubber dome 303 is elastically clamped in the through hole 102, wherein the rubber dome 303 is annular, elastic, compressible and clamped in the through hole 102.

It can be understood that, during installation, the cross arm frame 3 and the fixed half hoop 41 are fastened with the frame body 2 at the positions, that is, the cross arm frame 3, the fixed half hoop 41 and the frame body 2 are arranged at the installation part, the embedded rod 43 is inserted into the embedded hole 101, the cross arm frame 3 is flatly attached to the top of the pile body 1, the pile body 1 is sleeved with the 匚, at this time, the rubber round boss 303 is clamped into the through hole 102, a certain buckling effect is formed, the insertion stability of the installation step is improved, and the subsequent installation of the rod body 51 and the fixed half hoop 41 is facilitated.

Optionally, an anti-slip layer is disposed on the outer side of the embedded rod 43, so as to improve the anti-slip performance of the plug-in mounting.

Optionally, an elastic layer is provided on the outer side of the rod body 51, and the elastic layer may be made of elastic materials such as rubber or silica gel, and is inserted into the anchoring hole 401 to fill up the gap, so as to elastically deform and provide a certain reaction force, so that the fixed half hoop 41 and the movable half hoop 42 are tightly attached to the pile body 1.

The specific working procedure of the utility model is as follows: the method comprises the steps of firstly connecting a frame body 2 with a fixed half hoop 41, then installing a cross stretcher 3, adjusting the installation height of the cross stretcher 3 by a U-shaped clamp 301 and a locking bolt 302, locking, sleeving the frame body 2, the fixed half hoop 41 and the cross stretcher 3 onto a pile body 1, inserting an embedded rod 43 into the embedded hole 101, attaching the cross stretcher 3 to the top of the pile body 1, installing a movable half hoop 42, fastening the movable half hoop 42 and the fixed half hoop 41 through a bolt assembly, fastening the hoop onto the pile body 1 to form a first layer of locking, installing a reinforcing rod piece 5, penetrating a rod body 51 from a threaded hole on the cross stretcher 3, inserting the rod body into the through hole 102 and the two anchor holes 401, connecting the rod body with the threaded holes in a threaded mode to form a second layer of locking, and forming a sufficient and firm connecting effect through two layers of locking and anchoring of the embedded rod 43.

The entire workflow is completed and what is not described in detail in this specification is well known to those skilled in the art.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. A mounting structure for a photovoltaic bracket and a pipe pile, comprising:

The pile body is provided with an embedding hole at the outer side;

The frame body is provided with a cross stretcher, and the cross stretcher is pressed on the top of the pile body; and

The anchor ear assembly, the anchor ear is including deciding half hoop, moving half hoop and embedded rod, decide half hoop and fix the bottom of support body, move half hoop detachable with decide half hoop and be connected, just decide half hoop with all be provided with the embedded rod on the moving half hoop, the embedded rod with the embedding hole grafting.

2. The mounting structure of a photovoltaic bracket and a tubular pile according to claim 1, wherein the embedded hole penetrates through the pile body from left to right, a through hole is further formed in the top of the pile body, the through hole extends downwards and is communicated with the embedded hole, a reinforcing rod piece is detachably arranged at the bottom of the cross arm frame, and the reinforcing rod piece is inserted into the inner side of the through hole.

3. The mounting structure of a photovoltaic bracket and a tubular pile according to claim 2, wherein two opposite sides of the embedded rods are respectively extended with a laminated plate, the two laminated plates are in a vertically staggered lamination shape, an anchoring hole is formed in the top of each laminated plate, and the reinforcing rod is spliced with the anchoring hole.

4. A mounting structure of a photovoltaic bracket and a pipe pile according to claim 3, wherein the frame body comprises a column, a diagonal brace and a diagonal beam, a pair of columns are vertically arranged at the bottom of the diagonal beam, the interval between the columns is matched with the outer diameter of the pile body, the bottom ends of the columns are connected with the fixed half hoops, the top ends of the diagonal braces are respectively connected with two sides of the bottom of the diagonal beam, and the bottom ends of the diagonal braces are respectively connected with two sides of the fixed half hoops.

5. The structure according to claim 4, wherein the reinforcement bar comprises a bar body, a threaded portion is formed on the bar body, a threaded hole is formed in the top of the cross stretcher, and the bar body penetrates through the threaded hole downwards and is in threaded connection with the threaded hole through the threaded portion.

6. The mounting structure of a photovoltaic bracket and a pipe pile according to claim 5, wherein the fixed half hoop and the movable half hoop, the upright post and the diagonal beam, the upright post and the fixed half hoop, the diagonal brace and the diagonal beam and the diagonal brace and the fixed half hoop are all connected through bolt assemblies.

7. The mounting structure of a photovoltaic bracket and a tubular pile according to claim 6, wherein the cross stretcher is cross-shaped, U-shaped clamps are arranged at two ends of the cross stretcher, and locking bolts are connected to the U-shaped clamps in a threaded manner.

8. The mounting structure of the photovoltaic bracket and the tubular pile according to claim 7, wherein a rubber dome is arranged at the bottom of the transverse stretcher, and the rubber dome is elastically clamped in the through hole.

9. The mounting structure of a photovoltaic bracket and a pipe pile according to claim 8, wherein an anti-slip layer is provided on the outer side of the embedded rod.

10. The mounting structure of a photovoltaic bracket and a pipe pile according to claim 9, wherein an elastic layer is provided on the outer side of the rod body.