CN217782629U - Metal roof convenient to photovoltaic board location installation - Google Patents

Abstract

The utility model discloses a metal roofing convenient to photovoltaic board location installation relates to metal roofing technical field. The utility model discloses a metal roofing convenient to photovoltaic board location installation includes metal roofing body and ridge, metal roofing body includes left roofing and right roofing, is 135 jiaos between two roofing and connects and be fixed in the lower extreme of ridge, the ridge is the cuboid structure, and the length of ridge is the same with the length of metal roofing body; the upper surface of the metal roof body is provided with six positioning devices, the left roof and the right roof are respectively provided with three positioning devices, the positioning devices of the left roof and the right roof are symmetrically arranged, and the distances between the positioning devices are equal; the lower part of the metal roof body is provided with a roof body. The utility model has the advantages of photovoltaic board location stable in structure withstand voltage, increase photovoltaic board photic area, can be according to temperature regulation photovoltaic board photic area etc.

Description

Metal roof convenient to photovoltaic board location installation

Technical Field

The utility model relates to a metal roofing technical field specifically is a metal roofing convenient to photovoltaic board location installation.

Background

Photovoltaic panel assemblies are power generation devices that produce direct current upon exposure to sunlight and consist of thin solid photovoltaic cells made almost entirely of semiconductor materials such as silicon.

Because there are no moving parts, it can be operated for a long time without causing any loss. Simple photovoltaic cells can provide energy for watches and computers, and more complex photovoltaic systems can provide lighting for houses and supply power to the grid. The photovoltaic panel assembly can be made in different shapes and the assembly can be connected to generate more electricity. Both rooftops and building surfaces utilize photovoltaic panels, even as part of a window, skylight, or shelter, which are commonly referred to as building-attached photovoltaic systems.

The installation of photovoltaic board needs the support, fixes the support, and it can to fix to put the photovoltaic board on the support again, but will notice that the photovoltaic board of same cluster will be in same plane, will be in same angle, and the face orientation also needs unanimous, shelters from the condition and also needs unanimous, all has the protection to other photovoltaic boards and other electrical components's life-span like this, if have the same inconsistent, all can influence their life-span.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a metal roofing convenient to photovoltaic board location installation has low cost, high security, with advantages such as lane existing equipment zonulae occludens to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a metal roof convenient for positioning and mounting a photovoltaic panel comprises a metal roof body and a ridge, wherein the metal roof body comprises a left roof and a right roof, the two roofs are connected at an angle of 135 degrees and fixed at the lower end of the ridge, the ridge is of a cuboid structure, and the length of the ridge is the same as that of the metal roof body; the upper surface of the metal roof body is provided with six positioning devices, the left roof and the right roof are respectively provided with three positioning devices, the positioning devices of the left roof and the right roof are symmetrically arranged, and the distances between the positioning devices are equal; the lower part of the metal roof body is provided with a roof body.

Preferably, the positioning device comprises roof ribs and support columns, the number of the roof ribs is symmetrically arranged on the upper surface of the metal roof body, and the support columns are located in the middle of the two roof ribs.

Preferably, the upper surface of room rib is sunken to have square groove, and the upper and lower both ends of square groove are all embedded to have the temperature-sensitive ware, and the opposite face of two temperature-sensitive wares is equipped with the corresponding mounting hole in position, and it has the slide bar to link in the mounting hole.

Preferably, a cylindrical movable cavity is arranged in the supporting column, a telescopic rod is fixed on the bottom wall of the cylindrical movable cavity, the telescopic rod extends to the upper end of the supporting column, and a spring is sleeved on the periphery of the telescopic rod.

Preferably, the top of telescopic link even has the base, and the size of base is greater than the size in cylindricality activity chamber, and the upper end of base is equipped with the notch, is fixed with the rotation axis by the round pin axle in the notch, and the rotation axis upper end is run through there is the dead lever, and the symmetry is equipped with the one-level hinge on the dead lever, and the one-level hinge is located the rotation axis left and right sides.

Preferably, the pin shafts extend to the left end and the right end of the base, screws are fixed on the pin shafts outside the base, and the lower end of the rotating shaft is arc-shaped.

Preferably, the lower end of the primary hinge is movably connected with two frame plates, the frame plates are arranged at the upper ends of the sliding rods in an angle mode, the frame plates are connected with the sliding rods through secondary hinges, and the secondary hinges are connected with the outer surface of the temperature sensor.

Preferably, the frame plate is internally sunken with a photovoltaic plate groove, the upper end and the lower end of the photovoltaic plate groove are symmetrically provided with clamping grooves, and the bottom surface of the photovoltaic plate groove is provided with grid edges.

Preferably, the back middle part of frame plate is equipped with the ball chamber, and the ball chamber outer support has the one-level support, and the lower extreme of one-level support supports has the second grade support, and two one-level supports assemble on the slide bar, and the convergent point overcoat has the rod cover on the slide bar, is fixed with the crossbeam between two one-level supports, and second grade support and crossbeam all belong to rubber material and can freely stretch out and draw back.

Preferably, the ball cavity is movably provided with a movable ball, reinforcing ribs are arranged in the first-stage support and the cross beam, a bottom rib is arranged in the rod sleeve, the reinforcing ribs in the first-stage support are gathered on the bottom rib, the movable ball is connected with the reinforcing ribs, and the reinforcing ribs in the first-stage support are connected with the reinforcing ribs in the cross beam.

Compared with the prior art, the beneficial effects of the utility model are as follows:

according to the metal roof convenient for positioning and installing the photovoltaic panels, the two photovoltaic panels are connected in an angle mode through the frame plate, so that the contact surface between the photovoltaic panels and sunlight is increased, and the light energy absorption of the photovoltaic panels is enhanced; the position of the secondary hinge can be adjusted through the temperature sensor, so that the angle between the frame plates is adjusted, the contact surface of the photovoltaic panel and sunlight is further adjusted, and the contact surface is greatly increased to absorb more light energy when the temperature is high and the light energy is large; through the stable structure between one-level support, second grade support and crossbeam and its inside strengthening rib can fix mobilizable frame board, consolidate photovoltaic board and strengthen its crushing resistance, and then protect the photovoltaic board, also be convenient for adjust the angle between the frame board.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the positioning device of the present invention;

fig. 3 is a schematic connection diagram of the frame plate of the present invention;

FIG. 4 is a detailed view of the back of the frame plate of the present invention;

fig. 5 is a detailed view of the inside of the bracket of the present invention.

In the figure: 1. a metal roof body; 2. a house body; 3. a positioning device; 4. a roof ridge; 401. a roof rib; 402. a temperature sensor; 403. mounting holes; 404. fixing the rod; 405. a first level hinge; 406. a rotating shaft; 407. a pin shaft; 408. a screw; 409. a square groove; 410. a support pillar; 411. a telescopic rod; 412. a spring; 413. a cylindrical active cavity; 414. a base; 5. a frame plate; 51. a clamping groove; 52. grid edges; 53. a slide bar; 54. a photovoltaic panel trough; 55. a secondary hinge; 56. a ball cavity; 561. a movable ball; 57. a rod sleeve; 571. a bottom rib; 58. a cross beam; 59. a secondary scaffold; 510. a primary support; 6. and (7) reinforcing ribs.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1, a metal roofing convenient to installation of photovoltaic board location, including metal roofing body 1 and ridge 4, metal roofing body 1 includes left roofing and right roofing, be 135 jiaos between two roofs and connect and be fixed in the lower extreme of ridge 4, ridge 4 is the cuboid structure, the length of ridge 4 is the same with metal roofing body 1's length, metal roofing body 1's upper surface is equipped with positioner 3, positioner 3 is used for fixing a position the photovoltaic board, positioner 3's quantity has six, two roofs respectively are equipped with three positioner 3 about, positioner 3 of two roofs about are the symmetry setting, positioner 3 is apart from equaling, the below of metal roofing body 1 is equipped with room body 2.

Referring to fig. 2, the positioning device 3 includes roof ribs 401 and supporting pillars 410, the roof ribs 401 are symmetrically disposed on the upper surface of the metal roof body 1, the supporting pillars 410 are disposed in the middle of the two roof ribs 401, a square groove 409 is recessed in the upper surface of the roof ribs 401, temperature sensors 402 are embedded in the upper and lower ends of the square groove 409, the temperature sensors 402 have the characteristics of thermal contraction, cold exposure and expansion, mounting holes 403 are disposed on the opposite surfaces of the two temperature sensors 402, the mounting holes 403 are correspondingly disposed, a sliding rod 53 is connected in the mounting hole 403, a cylindrical movable cavity 413 is disposed in the supporting pillar 410, a telescopic rod 411 is fixed on the bottom wall of the cylindrical movable cavity 413, the telescopic rod 411 can be extended and retracted up and down, the telescopic rod 411 extends to the upper end of the supporting pillar 410, a spring 412 is sleeved on the periphery of the telescopic rod 411, the spring 412 has a restoring effect to drive the telescopic rod 411 to restore to the original position, a base 414 is connected to the top end of the telescopic rod 411, the base 414 is larger than the size of the cylindrical movable cavity 413, when the telescopic rod 411 is extended and contracted up and down, the base 414 can not extend into the cylindrical movable cavity 413, the upper end of the base 414 is provided with a notch, a rotating shaft 406 is fixed in the notch by a pin shaft 407, the rotating shaft 406 can freely rotate in the notch, the upper end of the rotating shaft 406 penetrates through a fixed rod 404, primary hinges 405 are symmetrically arranged on the fixed rod 404, the primary hinges 405 are positioned at the left side and the right side of the rotating shaft 406, the pin shaft 407 extends to the left end and the right end of the base 414, a screw 408 is fixed on the pin shaft 407 outside the base 414, the lower end of the rotating shaft 406 is arc-shaped, when the temperature sensor 402 is heated and contracted, the secondary hinges 55 connected outside the temperature sensor 402 are outwards expanded to drive the telescopic rod 411 to descend downwards to increase the angle between the frame plates 5 and increase the sunlight contact surface to enhance light energy absorption, when the temperature sensor 402 is cooled and expanded, the secondary hinges 55 connected outside the temperature sensor 402 are inwards gathered, drive telescopic link 411 to rise, reduce the angle between frame board 5, reduce the sunshine contact surface, avoid rainy weather rainwater to drench the photovoltaic board, bring the harm for the photovoltaic board.

Referring to fig. 3, two frame plates 5 are movably connected to a lower end of a first-stage hinge 405, the frame plates 5 are arranged at upper ends of sliding rods 53 in an angle, the angle between the frame plates 5 is adjustable, the frame plates 5 are connected with the sliding rods 53 through second-stage hinges 55, the second-stage hinges 55 can slide freely on the sliding rods 53, the second-stage hinges 55 are connected with an outer surface of a temperature sensor 402, the temperature sensor 402 can drive the second-stage hinges 55 to slide, photovoltaic plate grooves 54 are recessed in the frame plates 5, clamping grooves 51 are symmetrically arranged at upper and lower ends of the photovoltaic plate grooves 54, the photovoltaic plate grooves 54 and the clamping grooves 51 are the same as fixed photovoltaic plates, grid edges 52 are arranged on bottom surfaces of the photovoltaic plate grooves 54, and the grid edges 52 are used for enhancing friction force between the photovoltaic plates and the photovoltaic plate grooves 54, so as to prevent the photovoltaic plates from sliding out of the frame plates 5, and further protect the photovoltaic plates.

Referring to fig. 4-5, a ball cavity 56 is disposed in the middle of the back of the frame plate 5, a first stage support 510 is supported outside the ball cavity 56, the first stage support 510 is used for supporting the frame plate 5, reducing the stress of the contact point between the sliding rod 53 and the frame plate 5, protecting the sliding rod 53 from bending, a second stage support 59 is supported at the lower end of the first stage support 510, the second stage support 59 is used for supporting the first stage support 510, protecting the first stage support 510 from bending, the two first stage supports 510 converge on the sliding rod 53, a rod sleeve 57 is sleeved outside the convergence point on the sliding rod 53, the rod sleeve 57 is used for protecting a bottom rib 571, a beam 58 is fixed between the two first stage supports 510, the beam 58 is used for fixing the movable angle between the two first stage supports 510, and both the second stage support 59 and the beam 58 are made of rubber and can freely stretch out and draw back, when the angle between the first-stage support 510 is small, the beam 58 contracts the second-stage support 59 to be elongated, when the angle between the first-stage support 510 is large, the beam 58 expands the second-stage support 59 to be contracted, the movable ball 561 is movably arranged in the ball cavity 56, the movable ball 561 freely moves in the ball cavity 56, the reinforcing ribs 6 are arranged in the first-stage support 510 and the beam 58, the reinforcing ribs 6 are used for driving the first-stage support 510 to move and improving the flexibility of the beam 58, the bottom rib 571 is arranged in the rod sleeve 57, the reinforcing ribs 6 in the first-stage support 510 are converged on the bottom rib 571, the bottom rib 571 is used for reinforcing the reinforcing ribs 6 in the first-stage support 510, the movable ball 561 is connected with the reinforcing ribs 6, the reinforcing ribs 6 in the first-stage support 510 are connected with the reinforcing ribs 6 in the beam 58, when the beam 58 is contracted, the inner reinforcing ribs 6 pull the reinforcing ribs 6 in the primary support 510 to gather inwards, so that the angle between the frame plates 5 is reduced, when the cross beam 58 is stretched, the inner reinforcing ribs 6 push the inner reinforcing ribs 6 of the primary support 510 to expand outwards, so that the angle between the frame plates 5 is increased.

The working principle is as follows: according to the metal roof convenient for positioning and mounting the photovoltaic panel, when the temperature is high and the sunlight is high, the temperature sensor 402 is heated and contracted to drive the second-stage hinge 55 connected with the surface of the temperature sensor to expand outwards, the frame plate 5 is pulled downwards under the stress, the telescopic rod 411 is compressed to increase the angle between the two plates to increase the contact surface between the two plates and the sunlight, and the angle between the two plates is increased to enable the first-stage support 510 to slide downwards to drive the second-stage support 59 to contract and the cross beam 58 to elongate, so that the frame plate 5 is fixed; when the temperature is low or in rainy days, the temperature sensor 402 expands due to cooling to drive the second-stage hinge 55 on the surface of the temperature sensor to gather inwards, the frame plate 5 is stressed to rise, the telescopic rod 411 is pulled upwards to reduce the angle between the two plates and reduce the contact surface between the two plates and sunlight, and the angle between the two plates is reduced to enable the first-stage support 510 to slide upwards to drive the second-stage support 59 to elongate and the cross beam 58 to contract, so that the frame plate 5 is fixed.

In summary, the following steps: according to the metal roof convenient for positioning and installing the photovoltaic panels, the two photovoltaic panels are connected in an angle mode through the frame plate 5, so that the contact surface between the photovoltaic panels and sunlight is increased, and the light energy absorption of the photovoltaic panels is enhanced; the position of the secondary hinge 55 can be adjusted through the temperature sensor 402, so that the angle between the frame plates 5 is adjusted, the contact surface between the photovoltaic plate and sunlight is further adjusted, and when the temperature is high and the light energy is large, the angle is greatly increased, and the contact surface absorbs more light energy; the movable frame plate 5 can be fixed through the stable structure among the primary support 510, the secondary support 59 and the cross beam 58 and the reinforcing ribs 6 in the movable frame plate, the photovoltaic plate is reinforced, the pressure resistance of the photovoltaic plate is enhanced, the photovoltaic plate is protected, and the angle among the frame plates 5 can be conveniently adjusted.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, 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.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a metal roofing convenient to photovoltaic board location installation, includes metal roofing body (1) and ridge (4), its characterized in that: the metal roof body (1) comprises a left roof and a right roof, the two roofs are connected at an angle of 135 degrees and fixed at the lower end of the ridge (4), the ridge (4) is of a cuboid structure, and the length of the ridge (4) is the same as that of the metal roof body (1); the upper surface of the metal roof body (1) is provided with six positioning devices (3), the left and right roofs are respectively provided with three positioning devices (3), the positioning devices (3) of the left and right roofs are symmetrically arranged, and the distances between the positioning devices (3) are equal; a room body (2) is arranged below the metal roof body (1).

2. The metal roof for facilitating the positioning and installation of the photovoltaic panel according to claim 1, wherein: the positioning device (3) comprises room ribs (401) and supporting columns (410), the number of the room ribs (401) is two-symmetric, the room ribs are arranged on the upper surface of the metal roof body (1), and the supporting columns (410) are located in the middle of the two room ribs (401).

3. The metal roof for facilitating the positioning and installation of the photovoltaic panel, according to claim 2, wherein: the upper surface of the roof rib (401) is sunken to form a square groove (409), the upper end and the lower end of the square groove (409) are embedded with temperature sensors (402), the opposite surfaces of the two temperature sensors (402) are provided with mounting holes (403) corresponding in position, and sliding rods (53) are connected in the mounting holes (403).

4. The metal roof for facilitating the positioning and installation of the photovoltaic panel, according to claim 2, wherein: be equipped with cylindricality activity chamber (413) in support column (410), cylindricality activity chamber (413) diapire is fixed with telescopic link (411), and telescopic link (411) extend to the upper end of support column (410), and the peripheral cover of telescopic link (411) has spring (412).

5. The metal roof for facilitating the positioning and installation of the photovoltaic panel according to claim 4, wherein: even there is base (414) on the top of telescopic link (411), and the size of base (414) is greater than the size of cylindricality activity chamber (413), and the upper end of base (414) is equipped with the notch, is fixed with rotation axis (406) by round pin axle (407) in the notch, and rotation axis (406) upper end has run through dead lever (404), and the symmetry is equipped with one-level hinge (405) on dead lever (404), and one-level hinge (405) are located rotation axis (406) left and right sides.

6. The metal roof for facilitating the positioning and installation of the photovoltaic panel, according to claim 5, wherein: the pin shafts (407) extend to the left end and the right end of the base (414), screws (408) are fixed on the pin shafts (407) outside the base (414), and the lower end of the rotating shaft (406) is arc-shaped.

7. The metal roof for facilitating the positioning and installation of the photovoltaic panel, according to claim 5, wherein: the lower end of the first-level hinge (405) is movably connected with two frame plates (5), the frame plates (5) are arranged at the upper ends of the sliding rods (53) in an angle mode, the frame plates (5) are connected with the sliding rods (53) through second-level hinges (55), and the second-level hinges (55) are connected with the outer surface of the temperature sensor (402).

8. The metal roof for facilitating the positioning and installation of the photovoltaic panel as claimed in claim 7, wherein: the photovoltaic panel groove (54) is sunken in the frame plate (5), the clamping grooves (51) are symmetrically arranged at the upper end and the lower end of the photovoltaic panel groove (54), and the grid edges (52) are arranged on the bottom surface of the photovoltaic panel groove (54).

9. The metal roof for facilitating the positioning and installation of the photovoltaic panel as claimed in claim 7, wherein: the back middle part of frame plate (5) is equipped with ball chamber (56), and ball chamber (56) outer support has one-level support (510), and the lower extreme of one-level support (510) supports has second grade support (59), and two one-level supports (510) assemble on slide bar (53), and the convergence point overcoat has pole cover (57) on slide bar (53), is fixed with crossbeam (58) between two one-level supports (510), and second grade support (59) and crossbeam (58) all belong to rubber material and can freely stretch out and draw back.

10. The metal roof for facilitating the positioning and installation of the photovoltaic panel, according to claim 9, wherein: the movable ball (561) is movably arranged in the ball cavity (56), reinforcing ribs (6) are arranged in the first-stage support (510) and the cross beam (58), a bottom rib (571) is arranged in the rod sleeve (57), the reinforcing ribs (6) in the first-stage support (510) are converged on the bottom rib (571), the movable ball (561) is connected with the reinforcing ribs (6), and the reinforcing ribs (6) in the first-stage support (510) are connected with the reinforcing ribs (6) in the cross beam (58).

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