CN217183220U - Novel roofing solar photovoltaic aluminum alloy support - Google Patents

Abstract

The utility model discloses a novel roofing solar photovoltaic aluminum alloy support, this solar photovoltaic aluminum alloy support aim at solving present solar panel and adopt the technical problem that rigid support mounting suffered the rigidity and destroys easily when receiving the extrusion force. The solar photovoltaic aluminum alloy support comprises a base, a front foot pillar arranged on the left side of the upper end of the base, a rear foot pillar arranged on the right side of the upper end of the base, a support frame arranged between the front foot pillar and the upper end of the rear foot pillar, and a fixed cross beam arranged on the upper end of the support frame. This solar photovoltaic aluminum alloy support adopts flexible member cooperation elastic component, and solar panel has vertical elastic support effect when installing on fixed cross beam to it, can remove one section distance along the planar direction of perpendicular to solar panel when solar panel receives vertical extrusion force and cushion the extrusion effort, and the directional removal of flexible member in flexible downthehole makes solar panel can not take place the change on the horizontal position.

Description

Novel roof solar photovoltaic aluminum alloy support

Technical Field

The utility model belongs to solar equipment installs the field, concretely relates to novel roofing solar photovoltaic aluminum alloy support.

Background

The solar photovoltaic support is a special support designed for placing, installing and fixing a solar panel in a solar photovoltaic power generation system, and the inclined surface of the solar panel is adjusted by moving a fastener on the support, so that the solar panel can flexibly move according to the sunlight and seasons.

Present solar rack generally is rigid structure, and solar panel generally installs in higher position, and it is influenced by the huge wind pressure of high latitude easily, and when the pressure value reached certain limit value, solar panel did not have the deformation characteristic, and its structure can suffer destruction, and the mode of high altitude installation also makes the inconvenient maintenance of solar panel, so need design a solar rack system who has atress buffer capacity.

Therefore, aiming at the condition that the influence of the wind pressure on the traditional solar panel during high-altitude installation has no effective buffering capacity, a novel solar support structure is developed, the elastic piece is arranged between the solar panel and the support, and the elastic piece has reverse deformation capacity when the elastic piece receives extrusion force, so that the effect on the solar panel is reduced.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

Not enough to prior art, the utility model aims to provide a novel roofing solar photovoltaic aluminum alloy support, this solar photovoltaic aluminum alloy support aim at solving present solar panel and adopt the technical problem that rigid support mounting suffered the rigidity and destroys when receiving the extrusion force easily.

(2) Technical scheme

In order to solve the technical problems, the utility model provides a novel roof solar photovoltaic aluminum alloy support which comprises a base, a front foot pillar arranged on the left side of the upper end of the base, a rear foot pillar arranged on the right side of the upper end of the base, a support frame arranged between the upper ends of the front foot pillar and the rear foot pillar, and a fixed cross beam arranged between the upper ends of the support frame, wherein universal joints are respectively arranged on the upper ends of the front foot pillar and the rear foot pillar, the support frame is arranged between the upper ends of the universal joints, telescopic holes are symmetrically arranged on the inner side of the fixed cross beam, telescopic rod pieces are arranged on the inner sides of the telescopic holes, a limiting frame is fixedly arranged at the lower end of the fixed cross beam, the limiting frame is arranged between the support frames, and the lower end of the telescopic rod piece is arranged on the upper side of the limiting frame, an elastic piece is fixedly connected between the upper end of the limiting frame and the lower end of the telescopic rod piece.

When the novel roof solar photovoltaic aluminum alloy support is used, a user adjusts the top plane of the universal joint on the same straight line by hand, then moves the fixed cross beam to a proper position along the support frame, installs the solar panel on the fixed cross beam through the telescopic rod piece, and when the solar panel is subjected to vertical extrusion action, the solar panel can vertically move by utilizing the matched work of the telescopic rod piece and the elastic piece, so that the effect of extrusion acting force on the solar panel is relieved.

Preferably, the left end and the right end of the base are fixedly connected with two hole floor corner pieces, the inner sides of the two hole floor corner pieces are vertically and movably connected with lifting adjusting bolts, and the upper ends of the lifting adjusting bolts are in threaded connection with the lower ends of the front foot supporting columns and the lower ends of the rear foot supporting columns. The lifting adjusting bolts are manually rotated, so that the heights of the front foot support and the rear foot support can be vertically adjusted, and the upper structure of the lifting adjusting bolts and the mounting height of the solar panel are in proper positions.

Preferably, the upper end of the base is fixedly connected with a balance beam, the balance beam is arranged between the front foot pillar and the rear foot pillar, and counterweight grooves are horizontally and transversely distributed on the inner sides of the balance beam and the base. A certain amount of balancing weights can be placed in the balancing weight groove, and when the support is installed at a higher position, the lower structure of the support can be stabilized, so that the support is prevented from being toppled.

Preferably, the support frame upper end is provided with the spout, the equal fixedly connected with slider in both sides around the fixed cross beam lower extreme, slider swing joint in the spout is inboard. The sections of the sliding blocks and the sliding grooves are of T-shaped structures, and the fixed cross beam can be prevented from being separated from the supporting frame when moving along the top surface of the supporting frame.

Preferably, the mounting opening has been seted up to fixed cross beam lower extreme front and back symmetry, the mounting box is installed to the mounting opening inboard, the inboard threaded connection of mounting box has fastening bolt, both sides all are provided with the anti-skidding pad around the support frame, the inner close subsides of fastening bolt in the anti-skidding pad outside. After the fixed cross beam moves to a proper position, the fastening bolt is rotated, the inner end of the fastening bolt is extruded and acts on the anti-sliding pad, and the fixed cross beam and the support frame are kept locked by friction force.

Preferably, the upper end of the mounting box is fixedly connected with a locking rod, a locking hole is formed in the inner side of the fixed cross beam, the locking hole is formed in the upper side of the mounting opening, the locking rod is arranged on the inner side of the locking hole, a pulley is mounted at the lower end of the mounting box, and the pulley is arranged on the upper side of the universal joint. When the mounting box is positioned on the universal joint, the friction force between the structures is reduced through the pulleys, so that the fixed cross beam can move smoothly relative to the support frame.

Preferably, the upper end of the telescopic rod piece is provided with a connector, a limiting ring is arranged between the connector and the telescopic rod piece, and the limiting ring is arranged on the upper side of the fixed cross beam. The connector is connected with a fastener at the lower end of the solar panel, and when the connector is extruded, force is transmitted to the telescopic rod piece to enable the telescopic rod piece to vertically move along the telescopic hole.

(3) Advantageous effects

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses a novel roofing solar photovoltaic aluminum alloy support adopt flexible member cooperation elastic component, solar panel installs when fixed cross beam, vertical elastic support effect has to it, can follow one section distance of the planar direction of perpendicular to solar panel and cushion extrusion effort when solar panel receives vertical extrusion force, prevent that solar panel from receiving the rigidity and destroying, flexible member makes solar panel can not take place the change on the horizontal position at the directional removal in flexible downthehole, and stability is high, be connected between universal joint and the support frame, can change the plane angle of support frame, adjust solar panel's orientation according to the sunshine.

Drawings

Fig. 1 is a schematic view of an assembly structure of a specific embodiment of the novel roof solar photovoltaic aluminum alloy bracket of the present invention;

FIG. 2 is a schematic view of a mounting structure of a base and a supporting frame of a specific embodiment of the novel roof solar photovoltaic aluminum alloy support of the present invention;

fig. 3 is the utility model relates to a novel roofing solar photovoltaic aluminum alloy support embodiment's fixed cross beam structure schematic diagram.

The labels in the figures are: 1. a base; 2. a front foot pillar; 3. a rear foot pillar; 4. a universal joint; 5. a support frame; 6. fixing the cross beam; 7. a telescopic hole; 8. a telescopic rod member; 9. a limiting frame; 10. an elastic member; 11. two-hole floor corner pieces; 12. a lifting adjusting bolt; 13. a plane adjustment bolt; 14. a balance beam; 15. a counterweight groove; 16. a chute; 17. a slider; 18. an installation port; 19. mounting a box; 20. fastening a bolt; 21. an anti-slip pad; 22. a locking lever; 23. a locking hole; 24. a pulley; 25. a connector; 26. a limit ring.

Detailed Description

The specific embodiment is a novel roof solar photovoltaic aluminum alloy support, the assembly structure schematic diagram of which is shown in figure 1, the installation structure schematic diagram of a base 1 and a support frame 5 is shown in figure 2, and the structure schematic diagram of a fixed cross beam 6 is shown in figure 3, the solar photovoltaic aluminum alloy support comprises a base 1, a front foot pillar 2 arranged on the left side of the upper end of the base 1, a rear foot pillar 3 arranged on the right side of the upper end of the base 1, a support frame 5 arranged between the upper ends of the front foot pillar 2 and the rear foot pillar 3, and a fixed cross beam 6 arranged between the upper ends of the support frame 5, wherein universal joints 4 are respectively arranged at the upper ends of the front foot pillar 2 and the rear foot pillar 3, the support frame 5 is arranged between the upper ends of the universal joints 4, telescopic holes 7 are symmetrically arranged at the inner side of the fixed cross beam 6, telescopic rod pieces 8 are arranged at the inner side of the telescopic holes 7, and a limiting frame 9 is fixedly arranged at the lower end of the fixed cross beam 6, spacing 9 sets up between support frame 5, and the 8 lower extremes of flexible member set up in spacing 9 upside, and fixed connection has elastic component 10 between spacing 9 upper ends and the 8 lower extremes of flexible member.

According to the embodiment, the connector 25 is connected with a fastener at the lower end of the solar panel, a certain distance is kept between the bottom of the solar panel and the fixed cross beam 6, when the solar panel is vertically extruded, the telescopic rod 8 vertically moves along the telescopic hole 7 to extrude or elongate the elastic piece 10, and then the elastic piece 10 obtains elastic recovery capacity and rapidly resets after stress is relieved.

Wherein, the equal fixedly connected with two holes ground corner piece 11 in both ends about base 1, the vertical swing joint in the inboard of two holes ground corner piece 11 has lift adjusting bolt 12, lift adjusting bolt 12 upper end threaded connection is in preceding foot pillar 2 and 3 lower extremes of back foot pillar, base 1 upper end fixedly connected with compensating beam 14, compensating beam 14 sets up between preceding foot pillar 2 and back foot pillar 3, compensating beam 14 and the inboard horizontal distribution of base 1 have counterweight groove 15. Manual rotation lift adjusting bolt 12 makes forepoling 2 and hind foot prop 3 can vertical height-adjusting, makes its superstructure and solar panel's mounting height be in suitable position, can place a certain amount of balancing weight in counter weight groove 15, and when the higher position of support mounting, substructure that can the stabilizing support prevents to take place to empty.

Simultaneously, 5 upper ends of support frame are provided with spout 16, equal fixedly connected with slider 17 in both sides around 6 lower extremes of fixed cross beam, slider 17 swing joint is inboard in spout 16, installing port 18 has been seted up to 6 lower extremes of fixed cross beam front and back symmetry, installing box 19 is installed to installing port 18 inboard, 19 inboard threaded connection of installing box has fastening bolt 20, both sides all are provided with anti-skidding pad 21 around 5 support frame, fastening bolt 20 the inner is close to in the anti-skidding pad 21 outside, 19 upper ends fixedly connected with locking lever 22 of installing box, 6 inboard of fixed cross beam is provided with locking hole 23, locking hole 23 sets up in installing port 18 upside, locking lever 22 sets up in locking hole 23 inboard, pulley 24 is installed to 19 lower extremes of installing box, pulley 24 sets up in universal joint 4 upside. The section of slider 17 and spout 16 is T type structure, fixed cross beam 6 avoids deviating from support frame 5 when can following support frame 5 top surface and remove, fixed cross beam 6 removes behind the suitable position, rotatory fastening bolt 20 makes its inner end extrusion on anti sliding pad 21, utilize frictional force to make fixed cross beam 6 and support frame 5 keep locking, when mounting box 19 is in universal joint 4, reduce the frictional force between the structure through pulley 24, can make fixed cross beam 6 more smooth for the removal of support frame 5.

In addition, the upper end of the telescopic rod 8 is provided with a connector 25, a limit ring 26 is arranged between the connector 25 and the telescopic rod 8, and the limit ring 26 is arranged on the upper side of the fixed beam 6. The connector 25 is connected to a fastener at the lower end of the solar panel and when pressed, transmits a force to the telescopic member 8 to move vertically along the telescopic hole 7.

When the novel roof solar photovoltaic aluminum alloy support is used, a user rotates the plane adjusting bolt 13 by hand to adjust the top end plane of the universal joint 4 on the same straight line, the intersection angle between the support frame 5 and the plane is changed, so that the orientation of the solar panel is adjusted to a proper angle, then the fixed cross beam 6 is moved to a proper position along the support frame 5 through the connection of the slide block 17 and the slide groove 16, the solar panel is connected with the telescopic rod piece 8 into a whole through the connector 25 and is positioned above the fixed cross beam 6, the lifting adjusting bolt 12 is rotated by hand to vertically lift or lower the front foot pillar 2 and the rear foot pillar 3, so that the height of the solar panel is adjusted to a proper position, the base 1 is fixed on the installation plane through the two-hole floor angle pieces 11, a certain amount of balancing weight is additionally arranged in the balancing groove 15, and the lower structure of the support is stabilized, when solar panel receives vertical extrusion, utilize the cooperation work of flexible member 8 and elastic component 10, make solar panel can vertical removal, alleviate the effect of extrusion effort to solar panel.

Claims (7)

1. A novel roof solar photovoltaic aluminum alloy support comprises a base, a front foot pillar arranged on the left side of the upper end of the base, a rear foot pillar arranged on the right side of the upper end of the base, a support frame arranged between the front foot pillar and the upper end of the rear foot pillar, and a fixed cross beam arranged between the upper ends of the support frame; the telescopic support is characterized in that universal joints are installed at the upper ends of the front foot support and the rear foot support, the support frame is installed between the upper ends of the universal joints, telescopic holes are symmetrically formed in the inner side of the fixed cross beam, telescopic rods are arranged on the inner side of the telescopic holes, a limiting frame is fixedly installed at the lower end of the fixed cross beam, the limiting frame is arranged between the support frames, the lower ends of the telescopic rods are arranged on the upper side of the limiting frame, and elastic pieces are fixedly connected between the upper ends of the limiting frame and the lower ends of the telescopic rods.

2. The novel roof solar photovoltaic aluminum alloy support according to claim 1, wherein two hole floor corner pieces are fixedly connected to the left and right ends of the base, a lifting adjusting bolt is vertically and movably connected to the inner sides of the two hole floor corner pieces, and the upper end of the lifting adjusting bolt is in threaded connection with the lower ends of the front foot pillar and the rear foot pillar.

3. The novel roof solar photovoltaic aluminum alloy support according to claim 1, wherein a balance beam is fixedly connected to the upper end of the base, the balance beam is arranged between the front foot pillar and the rear foot pillar, and counterweight grooves are horizontally and transversely distributed on the inner sides of the balance beam and the base.

4. The novel roof solar photovoltaic aluminum alloy support according to claim 1, wherein a sliding groove is formed in the upper end of the support frame, sliding blocks are fixedly connected to the front side and the rear side of the lower end of the fixed cross beam, and the sliding blocks are movably connected to the inner side of the sliding groove.

5. The novel roof solar photovoltaic aluminum alloy support according to claim 1, wherein mounting openings are symmetrically formed in the front and rear of the lower end of the fixed cross beam, a mounting box is mounted inside the mounting openings, fastening bolts are connected to the inner side of the mounting box through threads, anti-sliding pads are arranged on the front and rear sides of the support frame, and the inner ends of the fastening bolts are closely attached to the outer sides of the anti-sliding pads.

6. The novel roof solar photovoltaic aluminum alloy support according to claim 5, wherein a locking rod is fixedly connected to the upper end of the mounting box, a locking hole is formed in the inner side of the fixing cross beam, the locking hole is formed in the upper side of the mounting opening, the locking rod is arranged in the locking hole, a pulley is mounted at the lower end of the mounting box, and the pulley is arranged on the upper side of the universal joint.

7. The novel roof solar photovoltaic aluminum alloy support according to claim 1, wherein a connector is arranged at the upper end of the telescopic rod piece, a limit ring is arranged between the connector and the telescopic rod piece, and the limit ring is arranged on the upper side of the fixed cross beam.

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