CN214177221U - Solar cell panel mounting bracket for electric power iron tower - Google Patents

Abstract

The application relates to the technical field of photovoltaic power generation equipment, in particular to a solar panel mounting bracket for an electric iron tower, it includes the support frame that two set up side by side, the support frame includes the back timber that the slope was arranged and establishes at the back timber both ends and be used for supporting the support column of back timber, it is equipped with two crossbeams to stride between two support frames, two crossbeams are parallel to each other and are located the both ends of back timber respectively, the back timber is equipped with a plurality of skew adjustment holes along the equidistant length direction of back timber, the crossbeam is equipped with a plurality of cross adjustment holes along the equidistant length direction of crossbeam, the axial lead in skew adjustment hole all keeps parallel with the axial lead in cross adjustment hole, it is fixed through swivel joint spare locking between back timber and the crossbeam, the swivel joint spare includes that one end passes the locking bolt in skew adjustment hole and cross adjustment hole and passes the locking nut of skew adjustment hole and cross adjustment hole one end threaded connection with locking bolt. This application has the effect that can adapt to the solar cell panel of unidimensional not.

Description

Solar cell panel mounting bracket for electric power iron tower

Technical Field

The application relates to the technical field of photovoltaic power generation equipment, in particular to a solar cell panel mounting bracket for an electric iron tower.

Background

Solar energy is being used as a clean, safe, sustainable, and reliable energy source, and solar photovoltaic systems are rapidly expanding their applications in energy and industrial technology development. In recent years, the development and application of photovoltaic cells and large-area photovoltaic module devices as solar energy conversion media have attracted general attention. Even in the online video monitoring process of the power iron tower, the equipment such as a camera and the like installed on the high-voltage iron tower also starts to supply power by using a solar panel, and the solar panel is usually fixed by using a solar panel mounting bracket.

Chinese utility model patent with grant publication number CN203734593U discloses a solar cell panel installing support for electric power iron tower, it includes the installing support of two right angled triangle shapes, is in the same place through cross connection between two right-angle sides of these two installing supports, and has all opened the fixed orifices on two other right-angle sides of these two installing supports to can fix on electric power iron tower through the fastener.

For the above-mentioned related art, the inventor thinks that the size of the solar panel often changes according to the actual power supply needs or the size of the space when fixed, and this panel installing support then can't adapt to the solar panel of different sizes, and solar panel installs unstably when bigger, and solar panel then can't install when smaller.

SUMMERY OF THE UTILITY MODEL

In order to make the panel installing support can adapt to the solar cell panel of unidimensional not, this application provides a solar cell panel installing support for electric power iron tower.

The application provides a pair of solar cell panel installing support for electric power iron tower adopts following technical scheme:

the utility model provides an electric power is solar cell panel installing support for iron tower, includes two support frames that set up side by side, the support frame includes the back timber that the slope was arranged and establishes at the back timber both ends and be used for supporting the support column of back timber, strides between two support frames and is equipped with two crossbeams, and two crossbeams are parallel to each other and are located the both ends of back timber respectively, the back timber is equipped with a plurality of skew adjustment holes along the length direction equidistant of back timber, the crossbeam is equipped with a plurality of cross adjustment holes along the length direction equidistant of crossbeam, the axial lead in skew adjustment hole all keeps parallel with the axial lead in cross adjustment hole, it is fixed through swivel joint spare locking between back timber and the crossbeam, swivel joint spare includes that one end passes the locking bolt in skew adjustment hole and cross adjustment hole and the locking nut of cross adjustment hole one end threaded connection with locking bolt.

Through adopting above-mentioned technical scheme, during fixed solar cell panel, can adjust the distance between two support frames and between two crossbeams according to the solar cell panel size to enclose and close the rectangle frame that forms with solar cell panel size looks adaptation, then it is fixed with back timber and crossbeam locking through the spiro union piece, when the solar cell panel size changes, adjust again between two support frames and between two crossbeams the distance can, convenient and fast.

Optionally, the crossbeam is equipped with the notch along the length direction of crossbeam and moves towards the horizontal ladder groove of keeping away from tower body one side, the main aspects of horizontal ladder groove are for the one end that is close to the tower body, and the tip in horizontal ladder groove is for the one end of keeping away from the tower body, horizontal ladder inslot is equipped with and is used for the tight grip slipper of solar cell panel clamp.

Through adopting above-mentioned technical scheme, earlier with solar cell panel and crossbeam looks butt during fixed to make solar cell panel keep steady, then press from both sides tightly solar cell panel along crossbeam length direction's both ends through the grip slipper, in order to reach the purpose of fixing solar cell panel on the crossbeam.

Optionally, the back timber is equipped with the notch towards the oblique ladder groove of keeping away from tower body one side along the length direction of back timber, the main aspects of oblique ladder groove are for the one end that is close to the tower body, and the tip in oblique ladder groove is for the one end of keeping away from the tower body, be equipped with the supplementary holder that is used for pressing from both sides solar cell panel tight in the oblique ladder inslot.

Through adopting above-mentioned technical scheme, use the grip slipper to fix the back with solar cell panel along crossbeam length direction's both ends, order about supplementary grip slipper again and press from both sides solar cell panel along back timber length direction's both ends tightly to further strengthened solar cell panel's firm.

Optionally, the grip slipper and the supplementary grip slipper all include with horizontal ladder groove or oblique ladder groove looks adaptation the slider and one end with the slider rotate be connected and the other end with solar cell panel looks butt piece, it is fixed through fastener locking between butt piece and the slider.

Through adopting above-mentioned technical scheme, the slider is used for adjusting the position of grip slipper or supplementary grip slipper, and the butt piece is used for pressing from both sides solar cell panel tightly, and the fastener is used for ordering about the butt piece and supports solar cell panel tightly to get the slider and fix on crossbeam or back timber.

Optionally, the butt piece includes that one end and slider rotate the first horizontal segment of being connected, fix the one end of keeping away from the slider at first horizontal segment and along the vertical section of keeping away from the direction extension of ladder groove tank bottom and fix the second horizontal segment of keeping away from first horizontal segment one end and with solar cell panel's top surface looks butt at vertical section, the fastener passes first horizontal segment and links to each other with the slider.

Through adopting above-mentioned technical scheme, the fastener passes first horizontal segment and slider threaded connection to reach and make the second horizontal segment with solar panel clamp fastening fixed purpose.

Optionally, an elastic soft cushion is arranged on one side, close to the solar panel, of the second horizontal section.

Through adopting above-mentioned technical scheme, the second horizontal segment presss from both sides the fastening with solar cell panel regularly, is difficult for haring solar cell panel's surface.

Optionally, a rotating seat is arranged at one end, close to the top beam, of the supporting column, the rotating seat is rotatably connected with the supporting column, and the top beam is connected with the rotating seat through a screwed piece.

Through adopting above-mentioned technical scheme, when adjusting the inclination of back timber, loosen the screw joint spare between back timber and the rotation seat, then adjust the distance between two support columns, can reach the purpose of adjusting the inclination after solar cell panel is fixed.

Optionally, one end of the rotating seat, which is close to the top beam, is provided with an embedding groove for embedding the top beam.

Through adopting above-mentioned technical scheme, the back timber embedding rotates the scarf joint inslot of seat, and the difficult length direction along the crossbeam of following of back timber takes place the drunkenness to further strengthened the holistic steadiness of panel installing support.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the distance between the two support frames and the distance between the two cross beams can be adjusted according to the size of the solar cell panel, a rectangular frame matched with the size of the solar cell panel is formed in a surrounding mode, then the top beam and the cross beams are locked and fixed through the screw connection piece, when the size of the solar cell panel changes, the distance between the two support frames and the distance between the two cross beams are adjusted again, and the solar cell panel is convenient and rapid;

2. through setting up the elasticity cushion, the second level end presss from both sides the fastening with solar cell panel regularly, is difficult for damaging solar cell panel's surface.

Drawings

FIG. 1 is a schematic overall structural view of a panel mounting bracket according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of a solar panel mounted to a panel mounting bracket according to an embodiment of the present application;

FIG. 3 is a schematic diagram showing a top beam structure in an embodiment of the present application;

fig. 4 is a schematic view showing a beam structure in the embodiment of the present application.

Description of reference numerals: 1. a support frame; 11. a top beam; 111. an oblique adjustment hole; 112. a slant stepped groove; 12. a support pillar; 121. mounting a plate; 2. a cross beam; 21. a lateral adjustment hole; 22. a transverse stepped slot; 3. a screw member; 31. locking the bolt; 32. locking the nut; 4. a clamping seat; 41. a slider; 42. a butting block; 421. a first horizontal segment; 422. a vertical section; 423. a second horizontal segment; 4231. an elastic cushion; 43. a fastener; 5. an auxiliary holder; 6. a rotating seat; 7. a solar cell panel.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses solar cell panel installing support for electric power iron tower. Referring to fig. 1, the panel mounting bracket includes two support frames 1 arranged side by side.

Referring to fig. 1 and 2, the support frame 1 includes a top beam 11 and a support column 12. The top beam 11 is arranged obliquely so that the solar cell panel 7 is kept inclined so that the solar cell panel 7 can absorb more sunlight. The supporting columns 12 are arranged at two ends of the top beam 11, and the supporting columns 12 are located at one side of the top beam 11 close to the tower body and are used for supporting the top beam 11. The support column 12 can adopt aluminium alloy shaped steel, and the one end welded fastening that the support column 12 is close to the tower body has mounting panel 121, and mounting panel 121 passes through modes such as connecting bolt to be fixed on the tower body.

Two cross beams 2 are spanned between the two support frames 1. The cross beams 2 are positioned on one side of the top beam 11 far away from the tower body, the two cross beams 2 are parallel to each other, and the two cross beams 2 are respectively positioned at two ends of the top beam 11. The solar cells can be placed on the two beams 2 when fixed so that the solar panel 7 remains stationary.

Referring to fig. 2 and 3, the top beam 11 is provided with a plurality of inclined adjustment holes 111 at equal intervals along the length direction of the top beam 11, and the inclined adjustment holes 111 penetrate through the top beam 11; the crossbeam 2 is equipped with a plurality of cross adjustment holes 21 along the length direction of crossbeam 2 equidistance, and the cross adjustment hole 21 runs through crossbeam 2 and sets up. The inclined adjusting hole 111 and the horizontal adjusting hole 21 are waist-shaped holes, and the axial line of the inclined adjusting hole 111 and the axial line of the horizontal adjusting hole 21 are kept parallel. The top beam 11 and the cross beam 2 are locked and fixed through a screw connector 3, and the screw connector 3 comprises a locking bolt 31 and a locking nut 32. One end of the locking bolt 31 sequentially passes through the transverse adjusting hole 21 and the inclined adjusting hole 111, and one end of the locking bolt 31 passing through the transverse adjusting hole 21 and the inclined adjusting hole 111 is in threaded connection with the locking nut 32. When the screw connector 3 locks and fixes the top beam 11 and the cross beam 2, the locking nut 32 abuts against one end of the top beam 11 close to the tower body.

Before fixed solar cell panel 7, according to solar cell panel 7's actual size, slide two support frames 1 and two crossbeams 2 to suitable position, and enclose and close the rectangle frame that forms with solar cell panel 7's actual size looks adaptation, then pass the cross adjustment hole 21 of crossbeam 2 and the skew adjustment hole 111 of back timber 11 with locking bolt 31 in proper order, again with locking nut 32 and locking bolt 31 threaded connection, and make locking nut 32 and back timber 11 looks butt, in order to reach crossbeam 2 and back timber 11 locking fixed purpose. If the size of the solar cell panel 7 changes, the screw connector 3 can be loosened, the distances between the two support frames 1 and between the two cross beams 2 can be readjusted, a rectangular frame matched with the size of the solar cell panel 7 is formed by means of re-enclosure, and then the rectangular frame is locked and fixed again through the screw connector 3.

The solar cell panel 7 is clamped and fixed by the clamping seat 4. The clamping bases 4 are arranged on the cross beam 2, and the clamping bases 4 are located at two ends of the solar cell panel 7 in the length direction of the cross beam 2, so that the number of the clamping bases 4 is four. When the fixing device is fixed, the solar cell panel 7 is abutted to the cross beam 2, the solar cell panel 7 is kept stable, and then the solar cell panel 7 is clamped at two ends of the cross beam 2 in the length direction through the clamping seat 4, so that the purpose of fixing the solar cell panel 7 on the cross beam 2 is achieved.

The top beam 11 is provided with an auxiliary clamping seat 5 for enhancing the stability of the solar cell panel 7. The auxiliary clamping seats 5 are positioned at two ends of the solar cell panel 7 along the length direction of the top beam 11, so that the number of the auxiliary clamping seats 5 is four. After the solar cell panel 7 is fixed at two ends of the cross beam 2 in the length direction by using the clamping bases 4, the auxiliary clamping bases 5 are driven to clamp the solar cell panel 7 at two ends of the top beam 11 in the length direction, so that the stability of the solar cell panel 7 is further enhanced.

The clamping seat 4 is connected with the cross beam 2 in a sliding mode, and the auxiliary clamping seat 5 is connected with the top beam 11 in a sliding mode. The cross beam 2 is provided with a transverse stepped groove 22 with a notch facing to one side far away from the tower body along the length direction of the cross beam 2, and one end of the clamping seat 4 is positioned in the transverse stepped groove 22; the big end of the transverse stepped groove 22 is one end close to the tower body, and the small end of the transverse stepped groove 22 is one end far away from the tower body. The top beam 11 is provided with an inclined stepped groove 112 with a notch facing to a side far away from the tower body along the length direction of the top beam 11, and one end of the auxiliary clamp holder 5 is positioned in the inclined stepped groove 112. The cross beam 2 and the top beam 11 can adopt C-shaped steel with the same size, the transverse stepped groove 22 of the cross beam 2 and the inclined stepped groove 112 of the top beam 11 are shaped grooves of the C-shaped steel, and the inclined adjusting hole 111 and the transverse adjusting hole 21 are both arranged on the bottom of the C-shaped steel groove.

Referring to fig. 3 and 4, the holder 4 and the auxiliary holder 5 each include a slider 41 and an abutment block 42. The slider 41, that is, one end of the holder 4 located in the transverse stepped groove 22 and one end of the auxiliary holder 5 located in the inclined stepped groove 112, the slider 41 has a shape adapted to the shape of the transverse stepped groove 22 or the inclined stepped groove 112, and a gap is left between the slider 41 and the groove bottom of the transverse stepped groove 22 or the inclined stepped groove 112, so that the slider 41 avoids the locking bolt 31 when sliding. One end of the abutting block 42 is hinged to the sliding block 41, and the other end of the abutting block 42 abuts against the solar cell panel 7. Since the top beam 11 is located lower than the cross beam 2, the height of the abutment block 42 of the auxiliary clamping shoe 5 is greater than the height of the abutment block 42 of the clamping shoe 4.

After the solar cell panel 7 is placed on the cross beam 2, the clamping seat 4 and the auxiliary clamping seat 5 are slid to one side of the solar cell panel 7, and the abutting block 42 is rotated to enable the abutting block 42 to abut against the solar cell panel 7. The abutting block 42 and the sliding block 41 are locked and fixed by a fastener 43, and the fastener 43 can be a corrosion-resistant stainless steel bolt. The fastening member 43 not only causes the abutting block 42 to abut against the solar cell panel 7, but also causes the sliding block 41 to abut against the top wall of the transverse stepped groove 22 or the inclined stepped groove 112, thereby causing the sliding block 41 to be fixed to the cross beam 2 or the top beam 11.

The abutment block 42 includes a first horizontal segment 421, a vertical segment 422, and a second horizontal segment 423. One end of first horizontal segment 421 is articulated with slider 41, and vertical segment 422 is fixed in the one end that slider 41 was kept away from to first horizontal segment 421, and vertical segment 422 extends along the direction of keeping away from the ladder groove tank bottom, and second horizontal segment 423 is fixed in the one end that first horizontal segment 421 was kept away from to vertical segment 422, and the one end that vertical segment 422 was kept away from to second horizontal segment 423 is with solar cell panel 7's top surface looks butt. The first horizontal segment 421, the vertical segment 422, and the second horizontal segment 423 may be a stainless steel sheet metal of unitary construction. The fastener 43 penetrates through the first horizontal section 421 to be in threaded connection with the sliding block 41, so that the purpose of clamping and fixing the solar cell panel 7 by the second horizontal section 423 is achieved.

In order to enable the second horizontal segment 423 to clamp and fasten the solar panel 7 at regular time and not to damage the outer surface of the solar panel 7 easily, an elastic cushion 4231 is arranged on one side of the second horizontal segment 423 close to the solar panel 7. The elastic cushion 4231 can be made of composite rubber materials of walls with good weather resistance and corrosion resistance, and the elastic cushion 4231 is fixedly bonded with the second horizontal section 423.

The inclination angle of the top beam 11 is adjustable, and the solar cell panel 7 can change along with the angle of the top beam 11, so that the solar cell panel 7 can be adapted to different illumination angles. One end of the supporting column 12 close to the top beam 11 is provided with a rotating seat 6, and the rotating seat 6 is hinged on the supporting column 12. The top beam 11 is connected with the rotary base 6 through the screw connector 3, a through hole for the locking bolt 31 to pass through is arranged on the rotary base 6, and the locking bolt 31 passes through the through hole of the rotary base 6 of the inclined adjusting hole 111 of the top beam 11 and is in threaded connection with the locking nut 32. When adjusting the inclination of back timber 11, loosen back timber 11 and the swivel mount 6 between the swivel mount 3, then adjust the distance between two support columns 12, when two support columns 12 are close to each other, the inclination increase of back timber 11, when two support columns 12 are close to each other, the inclination of back timber 11 reduces, adjust after the completion through swivel mount 3 with back timber 11 fix again on support column 12 can.

The end of the rotating base 6 close to the top beam 11 is provided with an embedding groove for embedding the top beam 11. The through hole is arranged at the groove bottom of the scarf groove. The top beam 11 is embedded into the embedding groove of the rotating seat 6, and the top beam 11 is not easy to move along the length direction of the cross beam 2, so that the overall stability of the battery panel mounting bracket is further enhanced.

The implementation principle of the solar cell panel installing support for the electric power iron tower is as follows: before fixed solar cell panel 7, according to the size of solar cell panel 7 earlier, slide two support frames 1 and two crossbeams 2 to suitable position, and enclose and close the rectangle frame that forms with 7 size looks adaptations of solar cell panel, then pass the cross adjustment hole 21 of crossbeam 2 and the skew adjustment hole 111 of back timber 11 with locking bolt 31 in proper order, again with lock nut 32 and locking bolt 31 threaded connection, and make lock nut 32 and back timber 11 looks butt, in order to reach crossbeam 2 and back timber 11 locking fixed purpose. And then, adjusting the distance between the two support columns 12 according to the illumination path in the current season so as to change the inclination angle of the top beam 11, thereby achieving the purpose of adjusting the inclination angle of the solar cell panel 7. Then the support column 12 is fixed on the tower body of the electric power iron tower, the clamping bases 4 are driven to be close to the two ends of the solar cell panel 7 along the length direction of the cross beam 2 on the cross beam 2, the auxiliary clamping bases 5 are driven to be close to the two ends of the solar cell panel 7 along the length direction of the top beam 11 on the top beam 11, and the clamping bases 4 and the auxiliary clamping bases 5 clamp and fix the solar cell panel 7 on the two cross beams 2.

If the size of the solar cell panel 7 changes, the screw connector 3 can be loosened, the distances between the two support frames 1 and between the two cross beams 2 can be readjusted, a rectangular frame matched with the size of the solar cell panel 7 is formed by means of re-enclosure, and then the rectangular frame is locked and fixed again through the screw connector 3.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an electric power is solar cell panel installing support for iron tower, includes two support frame (1) that set up side by side, support frame (1) top beam (11) including the slope arrange and establish support column (12) at top beam (11) both ends and be used for supporting top beam (11), stride between two support frames (1) and be equipped with two crossbeams (2), two crossbeams (2) are parallel to each other and are located the both ends of top beam (11) respectively, its characterized in that: back timber (11) are equipped with a plurality of inclined adjustment hole (111) along the length direction equidistant of back timber (11), crossbeam (2) are equipped with a plurality of horizontal adjustment hole (21) along the length direction equidistant of crossbeam (2), the axial lead of inclined adjustment hole (111) all keeps parallel with the axial lead of horizontal adjustment hole (21), it is fixed through screwed joint spare (3) locking between back timber (11) and crossbeam (2), screwed joint spare (3) include one end pass inclined adjustment hole (111) and horizontal adjustment hole (21) locking bolt (31) and with locking bolt (31) pass inclined adjustment hole (111) and horizontal adjustment hole (21) one end threaded connection's locking nut (32).

2. The solar panel mounting bracket for the electric power iron tower according to claim 1, characterized in that: crossbeam (2) are equipped with notch towards horizontal ladder groove (22) of keeping away from tower body one side along the length direction of crossbeam (2), the main aspects of horizontal ladder groove (22) are for the one end near the tower body, and the tip of horizontal ladder groove (22) is for the one end of keeping away from the tower body, be equipped with in horizontal ladder groove (22) and be used for the centre gripping seat (4) that solar cell panel (7) press from both sides tightly.

3. The solar panel mounting bracket for an electric power tower according to claim 2, characterized in that: top beam (11) are equipped with oblique ladder groove (112) of notch orientation keeping away from tower body one side along the length direction of top beam (11), the main aspects of oblique ladder groove (112) are for the one end near the tower body, and the tip of oblique ladder groove (112) is for the one end of keeping away from the tower body, be equipped with in oblique ladder groove (112) and be used for pressing from both sides tight supplementary holder (5) with solar cell panel (7).

4. The solar panel mounting bracket for an electric power tower according to claim 3, characterized in that: grip slipper (4) and supplementary grip slipper (5) all include with horizontal ladder groove (22) or slider (41) and one end and slider (41) of oblique ladder groove (112) looks adaptation rotate be connected and the other end with solar cell panel (7) looks butt piece (42), it is fixed through fastener (43) locking between butt piece (42) and slider (41).

5. The solar panel mounting bracket for electric power iron tower according to claim 4, characterized in that: butt piece (42) include that one end and slider (41) rotate first horizontal segment (421) of being connected, fix and keep away from the one end of slider (41) and along vertical section (422) of keeping away from the direction extension of ladder groove tank bottom in first horizontal segment (421) and fix and keep away from first horizontal segment (421) one end and with second horizontal segment (423) of the top surface looks butt of solar cell panel (7) in vertical section (422), fastener (43) pass first horizontal segment (421) and link to each other with slider (41).

6. The solar panel mounting bracket for electric power iron tower according to claim 5, characterized in that: one side of the second horizontal segment (423) close to the solar panel (7) is provided with an elastic soft pad (4231).

7. The solar panel mounting bracket for the electric power iron tower according to claim 1, characterized in that: the supporting column (12) is close to one end of the top beam (11) and is provided with a rotating seat (6), the rotating seat (6) is rotatably connected with the supporting column (12), and the top beam (11) is connected with the rotating seat (6) through a screwed piece (3).

8. The solar panel mounting bracket for an electric power tower according to claim 7, wherein: one end of the rotating seat (6) close to the top beam (11) is provided with an embedding groove for embedding the top beam (11).

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