CN220693050U - Assembled photovoltaic support that can install fast - Google Patents

Abstract

The utility model discloses an assembled photovoltaic bracket capable of being quickly installed, which comprises a cross beam and longitudinal beams, wherein the cross beam is longitudinally and horizontally symmetrically distributed, and two cross beams are arranged; the longitudinal beams are transversely and horizontally symmetrically arranged on the cross beam, and two longitudinal beams are arranged; two mounting plates are respectively arranged at the tops of the two longitudinal beams, two sliding grooves are symmetrically formed in the tops of the mounting plates, and each sliding groove is connected with one sliding block; the top of each sliding block is connected with a fixed groove, and the fixed grooves are connected with the pressing plate; the top of each pressing plate is provided with a first threaded rod, and one end of each first threaded rod is connected with the top of each fixing groove; according to the photovoltaic panel, the sliding chute, the fixed groove, the first threaded rod and the second threaded rod are arranged, the tool is used for rotating the second threaded rod, the fixed groove is driven to drive the sliding block to slide along the sliding chute, and the photovoltaic panel can slide to a proper position according to the specification and the size of the photovoltaic panel.

Description

Assembled photovoltaic support that can install fast

Technical Field

The utility model particularly relates to the technical field related to an assembled photovoltaic bracket, in particular to an assembled photovoltaic bracket capable of being rapidly installed.

Background

The assembled photovoltaic bracket is an important device in a solar photovoltaic system and is used for installing and fixing a solar photovoltaic module. The solar photovoltaic support has wide application prospect in the field of solar photovoltaic power generation, and the structural design of the assembled photovoltaic support needs to consider factors such as fixation, stability and reliability of a photovoltaic module. The assembled photovoltaic bracket convenient to install is generally manufactured by adopting light materials (such as aluminum alloy), and has the characteristics of light weight, high strength, good corrosion resistance and the like, and the assembled photovoltaic bracket convenient to install comprises a base, wherein the upper end of the base is fixedly connected with a support frame, the upper end of the support frame is connected with a support frame clamping piece and a rotating shaft, the support frame clamping piece is positioned on the upper side of the rotating shaft, the outer end of the rotating shaft is fixedly connected with a support frame positioning plate, the outer end of the upper side of the support frame is connected with a connecting column, the inner side of the right end of the connecting column is clamped and provided with an inner threaded hole, the outer end of the connecting column is fixedly connected with a clamping plate, the inner end of the sliding clamping tube is fixedly connected with a positioning ring, the outer surface of the right end of the sliding clamping tube is rotationally connected with an external thread sleeve, and the tail end of the sliding clamping tube is fixedly connected with a photovoltaic plate fixing piece.

The assembled photovoltaic support that uses at present adopts modularized design generally, can carry out simple and quick equipment through modes such as bolt, buckle, at the in-process of photovoltaic board, generally needs buckle or bolt to fix the photovoltaic board, if photovoltaic board volume ratio is great, when the maintenance is changed to the photovoltaic board needs, just lead to the dismantlement of photovoltaic board more consuming time and laborious, takes place to drop the damage more easily at the in-process of installation and dismantlement.

Disclosure of Invention

The utility model aims to provide an assembled photovoltaic bracket capable of being quickly installed, so as to solve the problems that the existing assembled photovoltaic bracket used in the prior art is generally in a modularized design, can be simply and quickly assembled in a bolt, a buckle and the like, and is usually required to be fastened or fastened to fix a photovoltaic panel in the process of installing and dismantling the photovoltaic panel, and the photovoltaic panel is time-consuming and labor-consuming to dismantle and is easy to fall off and damage in the process of installing and dismantling if the volume of the photovoltaic panel is relatively large.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the assembled photovoltaic bracket comprises a cross beam and longitudinal beams, wherein the cross beam is longitudinally and horizontally symmetrically distributed, and two cross beams are arranged; the longitudinal beams are transversely and horizontally symmetrically arranged on the cross beam, and two longitudinal beams are arranged; two mounting plates are respectively arranged at the tops of the two longitudinal beams, two sliding grooves are symmetrically formed in the tops of the mounting plates, and each sliding groove is connected with one sliding block; the top of each sliding block is connected with a fixed groove, and the fixed grooves are connected with the pressing plate; the top of each pressing plate is provided with a first threaded rod, and one end of each first threaded rod is connected with the top of each fixing groove; one side of each fixed groove is provided with a second threaded rod, one end of each second threaded rod is connected with the baffle, and the baffle is arranged on the mounting plate; two hinges are symmetrically arranged at the bottom of each cross beam, and each hinge is connected with a lifting rod through a fixing bolt; one side of each lifting rod is provided with a group of position holes; the bottom of each lifting rod is connected with a sliding sleeve through a bolt, and a balancing weight is mounted at the bottom of each sliding sleeve.

As a further aspect of the utility model: the sliding groove is connected with the sliding block in a sliding manner, and the sliding groove is matched with the sliding block, the fixed groove and the second threaded rod to form a sliding structure.

As a further aspect of the utility model: the fixed slot is connected with the pressing plate in a sliding mode, and the fixed slot is matched with the pressing plate and the first threaded rod to form a sliding structure.

As a further aspect of the utility model: the hinge and the fixing bolt are connected in a rotating way, and the fixing bolt penetrates through the hinge and the lifting rod respectively.

As a further aspect of the utility model: the lifting rod is connected with the sliding sleeve in a sliding manner, the length of the inner wall of the sliding sleeve is larger than that of the lifting rod, and the width of the inner wall of the sliding sleeve is larger than that of the lifting rod.

As a further aspect of the utility model: the bolt penetrates through the lifting rod and the sliding sleeve, and the bolt is connected with the lifting rod and the sliding sleeve in a rotating manner.

Compared with the prior art, the utility model has the beneficial effects that:

1. the photovoltaic panel fixing device is provided with the sliding groove, the fixing groove, the first threaded rod and the second threaded rod, the tool is used for rotating the second threaded rod, the fixing groove is driven to drive the sliding block to slide along the sliding groove, the first threaded rod can slide to a proper position according to the specification and the size of the photovoltaic panel, the tool is used for rotating the first threaded rod again, the pressing plate is driven to slide downwards along the fixing groove, the pressing plate and the photovoltaic panel are tightly attached together, the purpose of fixing the photovoltaic panel is achieved, and if the photovoltaic panel needs to be replaced and maintained, only the first threaded rod and the second threaded rod are required to be rotated, and space is released.

2. According to the utility model, the hinge and the lifting rod are arranged, when the photovoltaic panel is required to be adjusted to face sunlight, the position holes on the lifting rod can be adjusted, the lifting rod is fixed by using the bolt and the sliding sleeve, and the change of the angle of the photovoltaic panel can be achieved without affecting the stability of the photovoltaic panel bracket when the heights of the lifting rods at the two ends are adjusted differently.

3. According to the utility model, the balancing weights are arranged, the four corners of the photovoltaic panel bracket are respectively arranged on the four balancing weights, and the balancing weights are high in material density and high in weight, so that stable supporting weight is provided for the whole photovoltaic panel bracket, and the stability of the bracket is improved.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a bottom view of fig. 1 of the present utility model.

Fig. 3 is a schematic view of the internal structure of the lifter in the present utility model.

Fig. 4 is an enlarged view of a of fig. 1 according to the present utility model.

In the figure: the device comprises a cross beam 1, a longitudinal beam 2, a mounting plate 3, a sliding groove 4, a sliding block 5, a fixing groove 6, a pressing plate 7, a first threaded rod 8, a second threaded rod 9, a baffle 10, a hinge 11, a fixing bolt 12, a lifting rod 13, a position hole 14, a sliding sleeve 15, a bolt 16 and a balancing weight 17.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, in the embodiment of the utility model, an assembled photovoltaic bracket capable of being quickly installed comprises a cross beam 1 and a longitudinal beam 2, wherein the cross beam 1 is longitudinally and horizontally symmetrically distributed, and the cross beam 1 is provided with two; the longitudinal beams 2 are horizontally and symmetrically arranged on the transverse beam 1, and the longitudinal beams 2 are two; two mounting plates 3 are respectively arranged at the tops of the two longitudinal beams 2, two sliding grooves 4 are symmetrically formed in the tops of the mounting plates 3, and each sliding groove 4 is connected with one sliding block 5; the top of each sliding block 5 is connected with a fixed groove 6, and the fixed grooves 6 are connected with a pressing plate 7; a first threaded rod 8 is arranged at the top of each pressing plate 7, and one end of the first threaded rod 8 is connected with the top of the fixed groove 6; a second threaded rod 9 is arranged on one side of each fixed groove 6, one end of the second threaded rod 9 is connected with a baffle 10, and the baffle 10 is arranged on the mounting plate 3; two hinges 11 are symmetrically arranged at the bottom of each cross beam 1, and each hinge 11 is connected with a lifting rod 13 through a fixed bolt 12; one side of each lifting rod 13 is provided with a group of position holes 14; the bottom of each lifting rod 13 is connected with a sliding sleeve 15 through a bolt 16, and a balancing weight 17 is arranged at the bottom of each sliding sleeve 15.

Specifically, the cross beam 1 and the longitudinal beam 2 are connected by bolts.

As a further explanation of the present embodiment, the attachment plate 3 and the side member 2 are connected by bolts.

In this embodiment, the sliding groove 4 and the sliding block 5 are connected in a sliding manner, and the sliding groove 4 is matched with the sliding block 5, the fixing groove 6 and the second threaded rod 9 to form a sliding structure.

In particular, the chute 4 does not extend through the mounting plate 3.

As a further illustration of this embodiment, the second threaded rod 9 is connected to the fixing groove 6 by a threaded connection.

In this embodiment, the fixing groove 6 and the pressing plate 7 are connected in a sliding manner, and the fixing groove 6 cooperates with the pressing plate 7 and the first threaded rod 8 to form a sliding structure.

Specifically, the connection mode of the fixing groove 6 and the sliding block is welding.

As a further illustration of this embodiment, the first threaded rod 8 and the baffle 10 are connected in a threaded connection.

In this embodiment, the hinge 11 and the fixing bolt 12 are rotatably connected, and the fixing bolt 12 penetrates the hinge 11 and the lifting rod 13, respectively.

Specifically, the joint between the hinge 11 and the cross member 1 is welded.

As a further illustration of this embodiment, the length of the securing latch 12 is greater than the width of the hinge 11.

In this embodiment, the lifting rod 13 and the sliding sleeve 15 are connected in a sliding manner, the length of the inner wall of the sliding sleeve 15 is greater than the length of the lifting rod 13, and the width of the inner wall of the sliding sleeve 15 is greater than the width of the lifting rod 13.

Specifically, the sliding sleeve 15 and the counterweight 17 are connected by welding.

As a further illustration of this embodiment, the height of the lifting rod 13 is greater than the height of the sliding sleeve 15.

In this embodiment, the pin 16 penetrates through the lifting rod 13 and the sliding sleeve 15, and the pin 16 is connected with the lifting rod 13 and the sliding sleeve 15 in a rotating manner.

Specifically, the length of the pin 16 is greater than the width of the sleeve 15.

As a further illustration of this embodiment, the diameter of the pin 16 is smaller than the diameter of the position hole 14.

The working principle of the utility model is as follows: when the photovoltaic panel mounting device is used, a photovoltaic panel to be mounted is placed on the mounting plate 3, the tool is used for rotating the second threaded rod 9, the fixing groove 6 is driven to drive the sliding block 5 to slide to a proper position along the sliding groove 4 and to prop against the photovoltaic panel, the tool is used for rotating the first threaded rod 8 again to drive the pressing plate 7 to slide downwards to a proper position along the fixing groove 6, the pressing plate 7 is enabled to tightly press the photovoltaic panel, the purpose of fixing the photovoltaic panel is achieved, the lifting rod 3 at the bottom of the cross beam 1 is adjusted to a proper position as required, the position holes on the sliding sleeve 15 and the lifting rod 13 are fixed by using the bolts 16, and meanwhile, the cross beam 1 is offset along the hinge 11 due to different positions adjusted by the lifting rods 13 at two ends, so that the purpose of adjusting the angle is achieved.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. An assembled photovoltaic support that can install fast, its characterized in that: the novel steel wire rope comprises a cross beam (1) and longitudinal beams (2), wherein the cross beam (1) is longitudinally and horizontally symmetrically distributed, and the cross beam (1) is provided with two cross beams; the longitudinal beams (2) are transversely and horizontally symmetrically arranged on the cross beam (1), and the longitudinal beams (2) are provided with two longitudinal beams; two mounting plates (3) are respectively arranged at the tops of the two longitudinal beams (2), two sliding grooves (4) are symmetrically formed in the tops of the mounting plates (3), and each sliding groove (4) is connected with one sliding block (5); the top of each sliding block (5) is connected with a fixed groove (6), and the fixed grooves (6) are connected with a pressing plate (7); the top of each pressing plate (7) is provided with a first threaded rod (8), and one end of each first threaded rod (8) is connected with the top of each fixing groove (6); one side of each fixed groove (6) is provided with a second threaded rod (9), one end of each second threaded rod (9) is connected with a baffle (10), and the baffle (10) is arranged on the mounting plate (3); two hinges (11) are symmetrically arranged at the bottom of each cross beam (1), and each hinge (11) is connected with a lifting rod (13) through a fixing bolt (12); one side of each lifting rod (13) is provided with a group of position holes (14); the bottom of each lifting rod (13) is connected with a sliding sleeve (15) through a bolt (16), and a balancing weight (17) is arranged at the bottom of each sliding sleeve (15).

2. A quickly mountable fabricated photovoltaic bracket according to claim 1, wherein: the sliding way of the sliding groove (4) and the sliding block (5) is sliding connection, and the sliding groove (4) is matched with the sliding block (5), the fixed groove (6) and the second threaded rod (9) to form a sliding structure.

3. A quickly mountable fabricated photovoltaic bracket according to claim 1, wherein: the fixed slot (6) and the pressing plate (7) are connected in a sliding mode, and the fixed slot (6) is matched with the pressing plate (7) and the first threaded rod (8) to form a sliding structure.

4. A quickly mountable fabricated photovoltaic bracket according to claim 1, wherein: the hinge (11) and the fixed bolt (12) are connected in a rotating way, and the fixed bolt (12) respectively penetrates through the hinge (11) and the lifting rod (13).

5. A quickly mountable fabricated photovoltaic bracket according to claim 1, wherein: the lifting rod (13) is connected with the sliding sleeve (15) in a sliding mode, the length of the inner wall of the sliding sleeve (15) is larger than that of the lifting rod (13), and the width of the inner wall of the sliding sleeve (15) is larger than that of the lifting rod (13).

6. A quickly mountable fabricated photovoltaic bracket according to claim 1, wherein: the bolt (16) penetrates through the lifting rod (13) and the sliding sleeve (15), and the bolt (16) is connected with the lifting rod (13) and the sliding sleeve (15) in a rotating mode.