CN219394737U - Supporting rod structure for photovoltaic panel distributed supporting system - Google Patents

Abstract

The utility model discloses a supporting rod structure for a photovoltaic panel distributed supporting system, which comprises a supporting rod, wherein the supporting rod adopts a steel bar, two sides of the steel bar are provided with two bending strips which are integrated with the steel bar, the two bending strips and the steel bar are in a groove-shaped structure, the end part of the steel bar is provided with an angle steel type connecting part which is integrated with the steel bar, the angle steel type connecting part and the end part of the steel bar are in a groove-shaped structure, and the inner sides of vertical edges and the upper sides of horizontal edges of the angle steel type connecting parts are abutted against the end faces and the bottom sides of the end parts of the bending strips. When the supporting rod structure is used for supporting the photovoltaic panel, the rigidity and the strength are greatly improved, the adopted steel plate can be made thinner, the weight is lighter, the effective bonding contact surface is large, and the connection reliability is improved.

Description

Supporting rod structure for photovoltaic panel distributed supporting system

Technical Field

The utility model relates to a supporting rod structure for a photovoltaic panel distributed supporting system, and belongs to the technical field of photovoltaic panel supporting equipment.

Background

When the steel shed roof top is paved with the water collecting tank, the photovoltaic plate is directly installed on the water collecting tank, and the flatness of the installation position of the shed roof surface is poor, if the rigidity and the strength of the supporting structure are poor, the connection effective area is easy to be small, and the connection stability is poor.

Disclosure of Invention

The utility model aims to solve the technical problems that: a support bar structure for a photovoltaic panel distributed support system is provided to address the problems of the prior art described above.

The technical scheme adopted by the utility model is as follows: the utility model provides a bracing piece structure for photovoltaic board distributed support system, includes the bracing piece, and the bracing piece adopts the billet, and the billet both sides are provided with two strip of bending rather than integrated into one piece structure, and two strip of bending are fluted structure with the billet, and the billet tip is provided with the angle steel type connecting portion rather than integrated into one piece structure, and angle steel type connecting portion is fluted structure with the billet tip, and the vertical limit inboard of angle steel type connecting portion and horizontal edge side are supported and are leaned on strip tip terminal surface and tip downside of bending.

Preferably, the support rod is formed by bending a steel plate, and the thickness of the steel plate is 2-3mm.

Preferably, a positioning pin is arranged at the bottom of the supporting rod and is inserted into a blind hole groove on the bottom surface of the clamping groove arranged on the step.

Preferably, a regulating piece is arranged between the supporting rod and the bottom surface of the clamping groove, and the regulating piece is respectively adhered with the clamping groove and the supporting rod.

The utility model has the beneficial effects that: compared with the prior art, the utility model has the following effects:

(1) The structure of the support rod is greatly improved in rigidity and strength, the adopted steel plate can be made thinner, lighter in weight, large in effective bonding contact surface, simple in structure, convenient to manufacture and low in cost, and the connection reliability is improved;

(2) The locating pin matched with the blind hole groove is arranged, so that the quick installation of the support rod can be realized, and the installation efficiency and the locating precision are improved;

(3) The adjusting piece is arranged, so that the flatness of the group of supporting rods on the water collecting tank can be conveniently adjusted, and some supporting points are more, so that the photovoltaic panel is more reliable in the bonding process.

Drawings

FIG. 1 is a schematic diagram of a photovoltaic panel distributed support architecture;

FIG. 2 is a schematic side view of a photovoltaic panel distributed support system;

FIG. 3 is a schematic diagram of a lateral cross-sectional structure of a photovoltaic panel distributed support system;

FIG. 4 is a schematic perspective view of a support rod;

FIG. 5 is a schematic diagram of a hoisting and pushing device;

FIG. 6 is a schematic side view of the pusher device;

fig. 7 is a schematic view of the structure of the track tank at the side wall of the connecting water collecting tank.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and specific examples.

Example 1: as shown in fig. 1-4, a supporting rod structure for a photovoltaic panel distributed supporting system comprises a supporting rod 1, wherein the supporting rod 1 adopts steel bars, two bending strips 6 of an integrated structure are arranged on two sides of each steel bar, each bending strip 6 and each steel bar are of a groove-shaped structure, an angle steel type connecting part 7 of an integrated structure is arranged at the end part of each steel bar, each angle steel type connecting part 7 and each steel bar end part are of a groove-shaped structure, the inner sides of the vertical edges and the upper sides of the horizontal edges of the angle steel type connecting parts 7 are abutted against the end faces and the bottom sides of the end parts of the bending strips 6, the supporting rod is high in rigidity and strength, the adopted steel plate thickness can be made thinner, the weight is lighter, the effective bonding contact surface is large, and the connection reliability is improved.

Preferably, the support bar 1 is formed by bending a steel plate, and the thickness of the steel plate is 2-3mm.

Example 2: as shown in fig. 1-7, a photovoltaic panel distributed supporting system comprises a plurality of rows of supporting rods 1, wherein each row of supporting rods 1 is uniformly and fixedly connected to the length direction of a water collecting tank 3 of a steel shed roof 2 at intervals, the supporting rods 1 are fixedly connected with a photovoltaic panel 4, the plurality of supporting rods are arranged at intervals in the length direction of each water collecting tank of the shed roof, the supporting rods are used for fixing the photovoltaic panel, theoretical contact surfaces (conventional contact only at two ends) of the photovoltaic panel can be reduced, effective supporting and fixing of the supporting rods and the photovoltaic panel are increased, stability of the photovoltaic panel is greatly improved, damage caused by uneven stress is avoided, and installation safety and use reliability are improved.

Preferably, the upper end edges of the two sides of the water collecting tank 3 are provided with symmetrical steps 5, the bottom surface and the end surface of the end part of the supporting rod 1 are adhered to the steps 5 through glue, the water collecting tank is provided with the steps, the supporting rod is convenient to adhere and limit, and the installation efficiency and the connection stability are improved.

Preferably, the above-mentioned bracing piece 1 adopts the billet, the billet both sides are provided with two strip 6 of bending rather than integrated into one piece structure, two strip 6 of bending are fluted structure with the billet, the billet tip is provided with rather than angle steel type connecting portion 7 of integrated into one piece structure, angle steel type connecting portion 7 is fluted structure with the billet tip, angle steel type connecting portion 7 vertical limit inboard and horizontal edge side support lean on strip 6 tip terminal surface and tip downside of bending, this structural support pole, rigidity and intensity are high, the steel sheet thickness of adoption can make thinness, weight is lighter, effective bonding contact surface is big, increase connection reliability.

Preferably, the support bar 1 is formed by bending a steel plate, and the thickness of the steel plate is 2-3mm.

Preferably, the bottom surface and the side surface of the step 5 are provided with corresponding clamping grooves 8, and two end parts of the supporting rod 1 are clamped into the clamping grooves 8 and provided with clamping grooves, so that the supporting rod is convenient to limit along the length direction of the water collecting groove, and the connection stability is higher.

Preferably, the bottom surface of the clamping groove 8 is provided with a positioning blind hole groove 26, the bottom of the supporting rod 1 is provided with a positioning pin 27, and the positioning pin is inserted into the blind hole groove, so that quick positioning can be realized.

Preferably, an adjusting piece 28 is arranged between the supporting rod 1 and the bottom surface of the clamping groove, and is respectively adhered to the clamping groove and the supporting rod, so that the height is adjustable, and the levelness of each supporting rod for installing the photovoltaic panel is improved.

Preferably, the above-mentioned water collection tank 3 with photovoltaic panel is internally provided with an unpowered drainage fan 23, under the blowing of wind power, the unpowered drainage fan 23 rotates and then can scatter and rapidly guide and discharge the incoming strong air flow, so as to avoid damage caused by overlarge local air flow, at least three water collection tanks are arranged at least, and at least one water collection tank is arranged at each of two ends.

Example 3: a method of constructing a photovoltaic panel distributed support system, the method comprising the steps of:

(1) Mounting the support rod into the clamping groove;

(2) Adjusting the upper end surfaces of the support rods in each row to be positioned on the same plane;

(3) Bonding the two ends of each supporting rod through glue;

(4) After the bonding glue of the support rod is solidified reliably, conveying the photovoltaic panel to a position to be installed on the steel shed roof;

(5) Coating glue on the upper end surfaces of the support rods, wherein the number of coated photovoltaic plates can be bonded, the coated glue reaches a set thickness, the photovoltaic plates are bonded to the support rods after coating, the two ends of each photovoltaic plate are bonded to half of the upper end surfaces of the two outermost support rods coated with the glue, and the steps are repeated, so that the next photovoltaic plate is coated with the glue; electrically connecting adjacent photovoltaic panels through a connector;

(6) The adjacent rows of support rods are in one group, and a water collecting tank is arranged between the adjacent groups.

Example 4: the photovoltaic plate is transported in-process and adopts photovoltaic plate hoist and mount pusher jack, and photovoltaic plate hoist and mount pusher jack includes hoist device 9 and pusher jack 10, and hoist device 9 installs on roof platform 11 and is close to steel canopy top 2 one side installation, and pusher jack 10 transversely installs on the steel canopy top and one end is close to hoist device 9. The lifting device 9 comprises an inverted L-shaped frame 24 and an electric hoist 25, the lower end of the L-shaped frame 24 is detachably and fixedly connected to a counterweight base 26, the electric hoist 25 is hung at the free end of the L-shaped frame 24, and a hanging basket or a rope is hung on a hook of the electric hoist 25 to directly bind a photovoltaic panel through the rope, so that the lifting is convenient.

Preferably, the pushing device 10 includes two track grooves 12, travelling wheels 13, a placement groove plate 14 and a fixing device, the two rows of travelling wheels 13 are installed at the bottom of the placement groove plate 14 through a bearing seat 17 and a rotating shaft 18, the two rows of travelling wheels 13 are respectively arranged in the two track grooves 12, the fixing device is installed on the placement groove plate 14 and can lock the photovoltaic panel 4, the groove depth of the placement groove plate 14 is at least the thickness of one photovoltaic panel, when two thicknesses are adopted, an elastic pad is required to be placed between the two pieces, the protection effect is achieved, the photovoltaic panel can be shipped by pulling or pushing a rope, and when two or more stacked pieces of the placement groove depth can be placed, the transportation efficiency is higher, the two track grooves 12 are of groove structures and are relatively detachably installed on the steel roof 2, a plurality of clamping devices 19 are arranged at the bottom of the track grooves 12, and each clamping device is connected to the side wall of the water collecting groove 3 of one steel roof 2 in an abutting mode. The clamping device 19 comprises an inverted U-shaped clamp 20, a locking screw 21 and a compression block 22, wherein the U-shaped clamp 20 is clamped on the side wall of the water collecting tank, the compression block 22 is attached to one side of the side wall, the locking screw 21 is in threaded connection with one side wall of the U-shaped clamp 20, and the inner end of the locking screw is in rotary connection with the compression block 22. The U-shaped clamp 20 can be pressed by the pressing blocks through the rotation of the locking screws, the clamping is stable and reliable, the locking is convenient and quick, the length of the U-shaped clamp 20 is larger than the height of the notch of the track groove, two pairs of locking screws 21 and the pressing blocks 22 are arranged at two ends of the U-shaped clamp 20, the two sides are free to install, and the installation is more convenient. The fixing device adopts four rotary pressing plates 15, the four rotary pressing plates 15 are rotatably arranged at four corners of the placing groove plate through rotary pins 16, and one side of the skeleton of the photovoltaic plate is provided with an elastic rubber layer in a pressure welding manner at the free ends of the four rotary pressing plates 15, so that the protection effect is achieved. The two ends of the rotating shaft 18 are provided with a ball head or rotatable steel balls, so that friction force with the track groove is reduced in the running process, running stability is improved, and service life is prolonged.

The photovoltaic panel distributed support system and the construction method have the following advantages:

(1) According to the utility model, the plurality of support rods are arranged at intervals in the length direction of each water collecting tank of the shed roof, and the support rods are used for fixing the photovoltaic panel, so that the theoretical contact surface (only two ends are contacted in the conventional manner) of the photovoltaic panel can be reduced, the effective support and fixation of the support rods and the photovoltaic panel are increased, the stability of the photovoltaic panel is greatly improved, the damage caused by uneven stress is avoided, and the installation safety and the use reliability are improved;

(2) The water collecting tank is provided with steps, so that the supporting rods are convenient to bond and limit, and the installation efficiency and the connection stability are improved;

(3) The structure of the supporting rod is greatly improved in rigidity and strength, the adopted steel plate can be made thinner in thickness and lighter in weight, the effective bonding contact surface is large, and the connection reliability is improved;

(4) The clamping groove is arranged, so that the supporting rod is convenient to limit along the length direction of the water collecting groove, and the connection stability is higher;

(5) The blind hole grooves and the positioning pins are arranged, so that the rapid installation of the support rod can be realized, and the installation efficiency and the positioning precision are improved;

(6) The adjusting sheet is arranged, so that the flatness of the group of supporting rods on one water collecting tank can be conveniently adjusted, and a plurality of supporting points are more, so that the bonding process with the photovoltaic panel is more reliable;

(7) The photovoltaic panel construction process can ensure better construction quality and higher connection stability, is convenient to install, and is convenient to overhaul and install due to the arrangement of the vacated water collecting tank;

(8) The lifting pushing device is arranged, so that the photovoltaic panel is conveniently conveyed onto the steel shed roof from the shed roof platform, and time and labor are saved;

(9) Adopt track groove, walking wheel and the pushing equipment of placing the frid structure, through manual work or rope pulling, can realize the transportation of photovoltaic board fast, it is easy to install and remove.

The foregoing is merely illustrative of the present utility model, and the scope of the present utility model is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the scope of the present utility model, and therefore, the scope of the present utility model shall be defined by the scope of the appended claims.

Claims (4)

1. A bracing piece structure for photovoltaic board distributed braced system, its characterized in that: including bracing piece (1), bracing piece (1) adopts the billet, and the billet both sides are provided with two strip of bending (6) rather than integrated into one piece structure, and two strip of bending (6) are fluted structure with the billet, and the billet tip is provided with angle steel type connecting portion (7) rather than integrated into one piece structure, and angle steel type connecting portion (7) are fluted structure with the billet tip, and the inboard and horizontal edge side of angle steel type connecting portion (7) vertical limit supports and leans on strip of bending (6) tip terminal surface and tip downside.

2. A support bar construction for a photovoltaic panel distributed support system according to claim 1, wherein: the supporting rod (1) is formed by bending a steel plate, and the thickness of the steel plate is 2-3mm.

3. A support bar construction for a photovoltaic panel distributed support system according to claim 1, wherein: the bottom of the supporting rod (1) is provided with a locating pin, and the locating pin is inserted into a blind hole groove on the bottom surface of a clamping groove (8) arranged on the step (5).

4. A support bar construction for a photovoltaic panel distributed support system according to claim 3, wherein: an adjusting piece is arranged between the supporting rod (1) and the bottom surface of the clamping groove, and the adjusting piece is respectively adhered with the clamping groove and the supporting rod.