CN115913065A

CN115913065A - Solar panel installation device for oil field well site

Info

Publication number: CN115913065A
Application number: CN202211671391.0A
Authority: CN
Inventors: 程玉臻
Original assignee: Dongying Haochen Petroleum Technology Development Co ltd
Current assignee: Shandong Chuangjia New Energy Technology Co ltd
Priority date: 2022-12-26
Filing date: 2022-12-26
Publication date: 2023-04-04
Anticipated expiration: 2042-12-26
Also published as: CN115913065B

Abstract

The invention relates to the technical field of green energy sources of oil fields, in particular to a solar panel mounting device for an oil field well site. The utility model provides an oil field solar panel installation device for well site, including the track frame that the equidistance set up, the track frame rotates and is connected with first swing arm, track frame equidistance sliding connection has the moving member, the moving member rotates and is connected with the second swing arm, the fixed plate rigid coupling is passed through to the lower part of adjacent second swing arm, the upper end of first swing arm and second swing arm all rotates and is connected with the third swing arm, the lower part of adjacent third swing arm passes through the connecting plate rigid coupling, the equal rigid coupling of lower extreme of second swing arm and third swing arm have with track frame sliding fit's slider. According to the invention, the distance between the adjacent solar panels is adjusted by the scissor type telescopic frames through the approach of the fixed rods at the upper side and the lower side, so that the adjacent solar panels are prevented from being shielded mutually to influence the photovoltaic power generation efficiency, and the solar panels are highly matched with the local sun in different seasons through adjusting the inclination angle of the solar panels, so that the power generation efficiency of the solar panels is improved.

Description

Solar panel installation device for oil field well site

Technical Field

The invention relates to the technical field of green energy of oil fields, in particular to a solar panel mounting device for an oil field well site.

Background

Photovoltaic power generation is a new energy technology, mainly comprises a solar cell panel (assembly), a controller and an inverter, and only needs to clean dust on the surface of the solar cell panel regularly during maintenance of the photovoltaic power generation, so that the photovoltaic power generation has a leading position in new energy.

The photovoltaic power generation mainly utilizes solar radiation to generate power, but a large amount of land resources are occupied when solar panels are laid, a large amount of electric energy is needed when oil exploitation is carried out in an oil field, a large amount of waste land exists around the existing oil field well site, a solar photovoltaic power generation facility needs to be built and installed in the land in an idle state around the oil field well site, electric energy is provided for oil field production, waste of land resources is avoided, national electric energy is saved, due to the fact that the intensity of sunlight irradiation is different due to the fact that longitude and latitude are different, the intersection angle of sunlight and the ground plane changes (namely the elevation angle of the sun at the local place) along with the change of seasons, after the height of the sunlight changes, the best irradiation angle of the solar panels changes, the power generation efficiency of the solar panels is reduced, in the existing process of adjusting the inclination angle of the solar panels, the angle height of the solar panel installation device for the oil field needs to be adjusted independently, the inclination angle of the solar panels is adjusted, operation is complex, pipelines and equipment are buried due to the underground of the oil field, when the underground pipelines and equipment are maintained, the solar panels in the corresponding positions need to be removed, the maintenance is completed, and the maintenance time is wasted.

Disclosure of Invention

The invention provides a solar panel mounting device for an oil field well site, which solves the problems in the background technology.

The utility model provides an oil field solar panel installation device for well site, the track frame that sets up including the equidistance, the track frame rotates and is connected with first swing arm, track frame equidistance sliding connection has the moving member, the moving member rotates and is connected with the second swing arm, the fixed plate rigid coupling is passed through to the lower part of adjacent second swing arm, the upper end of first swing arm and second swing arm all rotates and is connected with the third swing arm, the lower part of adjacent third swing arm passes through the connecting plate rigid coupling, the equal rigid coupling of lower extreme of second swing arm and third swing arm have with track frame sliding fit's slider, the equal rigid coupling of track frame in the outside has the mounting bracket, the mounting bracket is provided with a word groove, one side rotation that the mounting bracket is close to first swing arm is connected with cuts the fork expansion bracket, the articulated department rigid coupling that cuts the fork expansion bracket has sliding block and word groove sliding fit, be connected through the mount between sliding block and the adjacent moving member, adjacent one side symmetry formula rigid coupling that cuts the fork expansion bracket is close to has the dead lever, the dead lever that the symmetry set up draws close together and adjusts second swing arm and third swing arm position through cutting the fork expansion bracket.

Further, the distance between adjacent track frames is consistent, and the distance between adjacent fixed frames is equal.

Further, one side rigid coupling that the scissors fork expansion bracket is close to first swing arm has the locating gear, the dead lever symmetry formula rigid coupling of upside has the connecting block, the dead lever sliding connection of upside has the extrusion frame that is located adjacent connecting block inboard, the rigid coupling has the spring between the dead lever of extrusion frame and upside, the connecting block has with adjacent mounting bracket sliding connection and is used for carrying out spacing locating lever to the locating gear, the rigid coupling has the extension spring between locating lever and the mounting bracket, the locating lever and the extrusion frame cooperation that the symmetry set up, be used for the extrusion frame to promote adjacent locating lever and remove.

Furthermore, the transverse section of the extrusion frame is in an equilateral trapezoid structure, and one side of the positioning rod, which is in contact with the extrusion frame, is provided with an inclined surface for releasing the limit of the positioning rod on the positioning gear.

Further, mounting bracket sliding connection has the carriage, the rigid coupling has the carriage movable rod between the carriage that the symmetry set up, the carriage rigid coupling have with adjacent mounting bracket sliding connection's guide bar, the mounting bracket is provided with the square groove that is located a word groove upside, the mounting bracket symmetry formula is provided with the track groove with square groove intercommunication, the piece is inhaled to square inslot sliding connection of mounting bracket magnetism, inhale piece and adjacent carriage sliding connection, magnetism inhale a symmetry formula rigid coupling have with adjacent track groove sliding fit's guide block, the equal rigid coupling of third swing arm in the outside has inhales a complex magnetic path with adjacent magnetism, a third swing arm is used for promoting.

Furthermore, the track groove is formed by combining an inclined slideway and a horizontal slideway, the inclined slideway is matched with a guide block of the magnetic piece, and the magnetic piece is used for moving and magnetically attracting the magnetic piece to be matched with the magnetic block.

Further, still including the hinge bar that the equidistance set up, the hinge bar that the equidistance set up rotates respectively to be connected in adjacent third swing arm, and first swing arm and second swing arm all are provided with the sliding tray, and sliding tray that sliding tray sliding connection has and the hinge bar rotates the sliding seat of being connected, and first swing arm and second swing arm all are provided with and are used for carrying out spacing locating component to the sliding seat.

Further, the locating component comprises a magnetic frame, the magnetic frame is connected to the first swing arm and the second swing arm in a sliding mode, adjacent magnetic frames are fixedly connected through connecting rods, the first swing arm and the second swing arm on the outermost side are provided with locating holes in the same distance, and the magnetic frame on the outermost side is connected with locating pins matched with the adjacent locating holes in a sliding mode and used for limiting the magnetic frames.

Furthermore, the sliding seat is made of a magnetic material and is in magnetic fit with the magnetic frame, and the sliding seat is used for limiting the swing angle of the third swing arm.

Further, still include the gag lever post, gag lever post sliding connection in mounting bracket, the carriage equidistance be provided with gag lever post sliding fit's spacing hole for carry on spacingly to the carriage.

Compared with the prior art, the invention has the following advantages:

according to the invention, the distance between the adjacent solar panels is adjusted by the scissor type telescopic frames through the approach of the fixed rods at the upper side and the lower side, so that the adjacent solar panels are prevented from being shielded mutually to influence the photovoltaic power generation efficiency, and the solar panels are highly matched with the local sun in different seasons through adjusting the inclination angle of the solar panels, so that the power generation efficiency of the solar panels is improved.

The third swing arm swings in a limiting mode through adjusting the position of the magnetic frame, the solar panel is inclined and fixed, the inclination angle of the solar panel is prevented from being fixed, and when the weather is strong wind, the third swing arm swings due to wind force, so that the inclination angle of the solar panel changes, and the photovoltaic power generation efficiency is influenced.

Through gag lever post and spacing hole cooperation, carry on spacingly to the position of carriage, the position of third swing arm removes by oneself when avoiding strong wind weather, leads to solar panel's inclination to change, influences photovoltaic power generation efficiency.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is a schematic top-view perspective structure of the present invention.

Fig. 4 is a schematic perspective view of the first swing arm, the second swing arm, the third swing arm, the moving member, the mounting frame, the scissor-type telescopic frame and the sliding block.

Fig. 5 is a schematic three-dimensional structure diagram of the fixing rod, the positioning gear, the connecting block, the extrusion frame and the positioning rod of the present invention.

Fig. 6 is an enlarged schematic perspective view of the invention at a.

Fig. 7 is a schematic perspective view of the carriage, the guide bar and the magnetic member according to the present invention.

FIG. 8 is a perspective view of the mounting frame, the sliding frame and the magnetic member of the present invention.

Fig. 9 is a schematic perspective view of the carriage, the guide bar and the magnetic member according to the present invention.

Reference numerals: 1-rail holder, 2-first swing arm, 3-moving piece, 4-second swing arm, 5-third swing arm, 51-sliding piece, 6-mounting frame, 7-straight groove, 8-scissor type telescopic frame, 9-sliding block, 10-fixing frame, 11-fixing rod, 12-positioning gear, 13-connecting block, 14-extrusion frame, 15-positioning rod, 16-sliding frame, 17-moving rod, 18-guide rod, 19-rail groove, 191-inclined sliding rail, 192-horizontal sliding rail, 20-magnetic attraction piece, 21-magnetic block, 22-hinged rod, 23-sliding groove, 24-sliding seat, 25-magnetic frame, 26-positioning hole, 27-positioning pin, 28-limiting rod and 29-limiting hole.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

The utility model provides an oil field is solar panel installation device for well site, as shown in fig. 1-9, track frame 1 including the equidistance setting, the right part of track frame 1 rotates and is connected with first swing arm 2, track frame 1 equidistance sliding connection has moving member 3, three moving member 3 all is located the left side of first swing arm 2, the upper portion of moving member 3 rotates and is connected with second swing arm 4, adjacent 4 lower parts of second swing arm pass through the fixed plate rigid coupling, the upper end of first swing arm 2 and second swing arm 4 all rotates and is connected with third swing arm 5, adjacent 5 lower parts of third swing arm pass through the connecting plate rigid coupling, the lower extreme rigid coupling of third swing arm 5 has slider 51 with track frame 1 sliding fit, the equal rigid coupling of track frame 1 of foremost side and last side has mounting bracket 6, the upper portion of mounting bracket 6 is provided with a font 7, the right part of mounting bracket 6 rotates and is connected with scissors telescopic frame 8, the articulated department rigid coupling of scissors telescopic frame 8 has sliding block 9 with font slot 7 sliding fit with adjacent moving part, sliding block 9 is connected through mount 10 between adjacent moving arm 3, adjacent swing arm 10 distance equals, the right side of scissors frame 8 has the power generation efficiency of adjusting rod and the second swing arm, it influences the adjacent solar panel both sides through the mutual distance of second swing arm to cut between the fixed link between the second swing arm 11.

As shown in fig. 1-6, a positioning gear 12 is fixedly connected to the right portion of the scissor-fork type telescopic frame 8, a connecting block 13 is fixedly connected to an upper fixing rod 11 symmetrically, an extruding frame 14 located inside an adjacent connecting block 13 is slidably connected to the upper fixing rod 11, a transverse cross section of the extruding frame 14 is set to be an equilateral trapezoid structure, a spring is fixedly connected between the extruding frame 14 and the upper fixing rod 11, a positioning rod 15 used for limiting the positioning gear 12 is slidably connected to the connecting block 13 and the adjacent mounting frame 6, an inclined surface is arranged on one side of the positioning rod 15 in contact with the extruding frame 14 and used for limiting the positioning gear 12 by the positioning rod 15, a tension spring is fixedly connected between the positioning rod 15 and the mounting frame 6, the symmetrically arranged positioning rods 15 are matched with the extruding frame 14 and used for the extruding frame 14 to push the adjacent positioning rod 15 to move, the extruding frame 14 is reset under the action of the spring thereon and push the positioning rod 15 to limit the positioning gear 12, and fix the position of the second swing arm 4.

As shown in fig. 5-9, the mounting frame 6 is slidably connected with the sliding frames 16, moving rods 17 are symmetrically fixed between the sliding frames 16, the sliding frames 16 are fixedly connected with guide rods 18 slidably connected with adjacent mounting frames 6, the mounting frame 6 is provided with square grooves located on the upper side of the linear grooves 7, the mounting frame 6 is symmetrically provided with track grooves 19 communicated with the square grooves, the track grooves 19 are formed by combining inclined slideways 191 and horizontal slideways 192, the square grooves of the mounting frame 6 are slidably connected with magnetic attraction pieces 20, the magnetic attraction pieces 20 are iron plates, the magnetic attraction pieces 20 are slidably connected with the adjacent sliding frames 16, the magnetic attraction pieces 20 are symmetrically fixedly connected with guide blocks slidably matched with the adjacent track grooves 19, the third swing arms 5 at the front side and the rear side are fixedly connected with magnetic blocks 21 matched with the adjacent magnetic attraction pieces 20, the inclined slideways 191 are matched with the guide blocks of the magnetic attraction pieces 20, the magnetic attraction pieces 20 are used for moving and magnetically matching with the magnetic blocks 21, the horizontal slideways 192 are matched with the guide blocks of the magnetic attraction pieces 20, and the magnetic attraction pieces 20 are used for moving the magnetic attraction pieces 20 to move the third swing arms 5 leftwards through the magnetic blocks to adjust the angle of the solar panel, and adjust the inclination angle of the local solar panel height, thereby improving the power generation efficiency of the solar panel.

When the distance between the solar panels is adjusted through the installation assembly, the solar panels are close to the fixed rods 11 by pressing the extrusion frame 14, springs of the extrusion frame 14 are compressed accordingly, the positioning rods 15 on the front side and the rear side move inwards under the action of tension springs on the positioning rods, the limitation on the positioning gears 12 on the front side and the rear side is removed, the fixed rods 11 on the upper side and the lower side are pressed to enable the positioning rods to approach each other, the transmission scissor type expansion frame 8 is driven to enable the scissor type expansion frame 8 to drive the second swing arm 4 to move leftwards through the fixed frame 10, the second swing arm 4 moves leftwards to push the third swing arm 5 to move leftwards, the fixed rods 11 on the upper side and the lower side are drawn together, the distance between the first swing arm 2 and the second swing arm 4 is increased accordingly, the distance between the adjacent solar panels is adjusted by adjusting the distance between the first swing arm 2 and the second swing arm 4, the mutual shielding of the adjacent solar panels is avoided, the power generation efficiency is influenced, the solar panels in the same group are synchronously adjusted by pressing the fixed rods 11 on the upper side and the fixed rods 14, the solar panels are reset positions of the positioning springs, the adjacent solar panels, the solar panels are fully adjusted, the solar panels are reset efficiency is improved, and the weather stability of the solar panels is also improved.

When adjusting solar panel's inclination through this installation component, promote the carriage 17 and make the carriage 16 drive magnetism inhale 20 and move left, inhale 20 and move the in-process left of magnetism, the guide block of inhaling 20 at first cooperates with slope slide 191, the magnetism of both sides is inhaled and is inhaled the piece 20 and is drawn close and inhale the cooperation with magnetic path 21 to the inboard side movement around making, when the guide block of inhaling piece 20 removes in horizontal slide 192, it makes third swing arm 5 swing left through magnetic path 21 to inhale piece 20 to magnetism, adjust the inclination to solar panel, because the sunlight height in different seasons is different, through the inclination that changes solar panel, make solar panel and local sun highly cooperate, make solar panel be in the best angle of shining, improve solar panel's generating efficiency.

When the underground pipeline and the equipment in the oil field are maintained, a user moves the sliding frame 16 to the right through the moving rod 17 for resetting, the third swing arm 5 swings to the right for resetting, the user presses the extrusion frame 14 to enable the positioning rod 15 to remove the limit of the positioning gear 12, the fixing rods 11 on the upper side and the lower side are kept away from each other, the second swing arm 4 is drawn close to the first swing arm 2 through the scissor type expansion bracket 8, the second swing arm 4 and the third swing arm 5 move to the right and are stacked together, the solar panel is erected at the moment, the underground pipeline and the equipment in the oil field are convenient to maintain, when the device is used again, the fixing rods 11 on the upper side and the lower side are only required to be drawn close to each other, the second swing arm 4 is made to be far away from the first swing arm 2 through the scissor type expansion bracket 8, the operation of dismantling the solar panel is simplified into a folded operation process, and the efficiency of maintaining the underground pipeline and the equipment is improved.

Example 2

On embodiment 1's basis, as shown in fig. 9, still including the articulated rod 22 that the equidistance set up, the articulated rod 22 that the equidistance set up rotates respectively to be connected in the right flank of adjacent third swing arm 5, the left surface of first swing arm 2 and second swing arm 4 all is provided with sliding tray 23, sliding tray 23 sliding connection has the sliding seat 24 of being connected with articulated rod 22 rotation, sliding seat 24 sets up to magnet, first swing arm 2 and second swing arm 4 all are provided with and are used for carrying out spacing locating component to sliding seat 24.

As shown in fig. 9, the positioning assembly comprises a magnetic frame 25, the magnetic frame 25 is slidably connected to the first swing arm 2 and the second swing arm 4, the front and the back adjacent magnetic frames 25 are fixedly connected through a connecting rod, a sliding seat 24 is magnetically matched with the magnetic frame 25, and is used for limiting the swing angle of the third swing arm 5, the outer side surfaces of the first swing arm 2 and the second swing arm 4 at the foremost side and the rearmost side are respectively provided with an equidistant positioning hole 26, the magnetic frame 25 at the foremost side and the rearmost side is respectively and slidably connected with a positioning pin 27 matched with the adjacent positioning hole 26 and is used for limiting the magnetic frame 25, and the magnetic frame 25 is limited to move by matching the positioning pin 27 with the positioning hole 26.

Move out locating pin 27 in the locating hole 26, and remove magnetism frame 25, after magnetism frame 25 removed to the assigned position, insert locating pin 27 in the locating hole 26 that corresponds, realize spacing to magnetism frame 25, third swing arm 5 swing left in-process, third swing arm 5 can make sliding seat 24 upwards slide in the spout of sliding tray 23 through hinge bar 22, magnetism frame 25 and sliding seat 24 magnetic fit, restrict the angle of third swing arm 5 swing left, accomplish to carry on spacingly to the angle of solar panel slope, avoid solar panel's inclination not fixed, when strong wind weather, wind-force makes third swing arm 5 swing, make solar panel's inclination change, influence photovoltaic power generation.

As shown in fig. 7, the solar photovoltaic power generation system further includes a limiting rod 28, the limiting rod 28 is slidably connected to the mounting frame 6, the sliding frame 16 is equidistantly provided with limiting holes 29 in sliding fit with the limiting rod 28 for limiting the sliding frame 16, when the inclination angle of the solar panel is adjusted, the limiting rod 28 is moved out of the limiting holes 29 to remove the limitation on the sliding frame 16, after the inclination angle of the solar panel is adjusted, the limiting rod 28 is inserted into the corresponding limiting hole 29 to limit the position of the sliding frame 16, the limiting rod 28 is matched with the limiting holes 29 to increase the stability of the sliding frame 16, and the problem that the inclination angle of the solar panel is changed due to the fact that the position of the third swing arm 5 is automatically moved by wind power when the sliding frame 16 is not fixed in windy weather is avoided, and the photovoltaic power generation efficiency is affected.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. A solar panel mounting device for an oil field well site is characterized by comprising a track frame (1) arranged at equal intervals, wherein the track frame (1) is rotatably connected with a first swing arm (2), the track frame (1) is connected with moving members (3) at equal intervals in a sliding manner, the moving members (3) are rotatably connected with second swing arms (4), the lower parts of the adjacent second swing arms (4) are fixedly connected through a fixed plate, the upper ends of the first swing arm (2) and the second swing arm (4) are respectively rotatably connected with a third swing arm (5), the lower parts of the adjacent third swing arms (5) are fixedly connected through a connecting plate, the lower end of each third swing arm (5) is fixedly connected with a sliding member (51) in sliding fit with the track frame (1), the track frame (1) in the outermost side is fixedly connected with a mounting frame (6), the mounting frame (6) is provided with a straight groove (7), one side, close to the first swing arm (2), of the mounting frame (6) is rotatably connected with a scissor type expansion bracket (8), a sliding block (9) in sliding fit with the straight groove (7) is fixedly connected to a hinged position of the scissor type expansion bracket (8), the sliding block (9) is connected with an adjacent moving member (3) through a fixing frame (10), one side, close to the first swing arm (2), of the adjacent scissor type expansion bracket (8) is symmetrically fixedly connected with a fixing rod (11), and the symmetrically arranged fixing rods (11) are close to each other to adjust the second swing arm (4) and the third swing arm (C and C) through the scissor type expansion bracket (8) 5) Location.

2. The installation device of solar panels for oilfield well sites as claimed in claim 1, wherein the distance between adjacent track frames (1) is uniform and the distance between adjacent fixed frames (10) is equal.

3. The installation device of the solar panel for the oilfield well site as defined by claim 1, wherein a positioning gear (12) is fixedly connected to one side of the scissor type expansion bracket (8) close to the first swing arm (2), a connecting block (13) is fixedly connected to the upper side fixing rod (11) in a symmetrical manner, an extrusion frame (14) located on the inner side of the adjacent connecting block (13) is slidably connected to the upper side fixing rod (11), a spring is fixedly connected between the extrusion frame (14) and the upper side fixing rod (11), a positioning rod (15) used for limiting the positioning gear (12) is slidably connected to the connecting block (13) and the adjacent mounting frame (6), a tension spring is fixedly connected between the positioning rod (15) and the mounting frame (6), and the symmetrically arranged positioning rods (15) are matched with the extrusion frame (14) and used for the extrusion frame (14) to push the adjacent positioning rod (15) to move.

4. The installation device of the solar panel for the oilfield well site as claimed in claim 3, wherein the lateral section of the extrusion frame (14) is an equilateral trapezoid structure, and one side of the positioning rod (15) contacting with the extrusion frame (14) is an inclined surface for releasing the position of the positioning rod (15) on the positioning gear (12).

5. The installation device of the solar panel for the oilfield well site as defined by claim 3, wherein the installation frame (6) is slidably connected with sliding frames (16), moving rods (17) are fixedly connected between the symmetrically arranged sliding frames (16), the sliding frames (16) are fixedly connected with guide rods (18) which are slidably connected with adjacent installation frames (6), the installation frame (6) is provided with square grooves which are positioned on the upper sides of the straight grooves (7), the installation frame (6) is symmetrically provided with track grooves (19) communicated with the square grooves, the square grooves of the installation frame (6) are slidably connected with magnetic attraction pieces (20), the magnetic attraction pieces (20) are slidably connected with the adjacent sliding frames (16), the magnetic attraction pieces (20) are symmetrically fixedly connected with guide blocks which are slidably matched with the adjacent track grooves (19), and the third swing arms (5) on the outermost sides are fixedly connected with magnetic blocks (21) which are matched with the adjacent magnetic attraction pieces (20) and used for pushing the third swing arms (5) to move.

6. The installation device of the solar panel for the oilfield well site as claimed in claim 5, wherein the track groove (19) is formed by combining an inclined slideway (191) and a horizontal slideway (192), the inclined slideway (191) is matched with a guide block of the magnetic attraction piece (20) for the magnetic attraction piece (20) to move and be matched with the magnetic block (21) in a magnetic attraction way.

7. The device for installing the solar panel for the oilfield well site as defined by claim 5, further comprising hinge rods (22) arranged at equal intervals, wherein the hinge rods (22) arranged at equal intervals are respectively connected to the adjacent third swing arms (5) in a rotating manner, the first swing arm (2) and the second swing arm (4) are respectively provided with a sliding groove (23), a sliding seat (24) rotatably connected with the hinge rods (22) is connected in the sliding groove (23) in a sliding manner, and the first swing arm (2) and the second swing arm (4) are respectively provided with a positioning assembly for limiting the sliding seat (24).

8. The installation device of the solar panel for the oilfield well site as claimed in claim 7, wherein the positioning assembly comprises a magnetic frame (25), the magnetic frame (25) is slidably connected to the first swing arm (2) and the second swing arm (4), adjacent magnetic frames (25) are fixedly connected through a connecting rod, the first swing arm (2) and the second swing arm (4) on the outermost side are respectively provided with positioning holes (26) with equal intervals, and the magnetic frame (25) on the outermost side is respectively slidably connected with positioning pins (27) matched with the adjacent positioning holes (26) for limiting the magnetic frame (25).

9. The installation device of the solar panel for the oilfield well site as claimed in claim 8, wherein the sliding seat (24) is made of magnetic material, and the sliding seat (24) is magnetically matched with the magnetic frame (25) for limiting the swing angle of the third swing arm (5).

10. The installation device of the solar panel for the oilfield wellsite as claimed in claim 7, further comprising a limiting rod (28), wherein the limiting rod (28) is slidably connected to the installation frame (6), and limiting holes (29) slidably matched with the limiting rod (28) are equidistantly formed in the sliding frame (16) and used for limiting the sliding frame (16).