CN116846313B - Multifunctional solar photovoltaic panel mounting frame convenient to adjust - Google Patents

Abstract

The invention discloses a multifunctional solar photovoltaic panel mounting frame convenient to adjust, and relates to the technical field of photovoltaic panels. In the process that the elastic rod moves towards the inner side of the rotating rod, the reset spring can be extruded, the elastic rod can drive the extrusion seat to move towards the direction of the pressure sensor and extrude the pressure sensor, if the photovoltaic panel installation frames at the adjacent positions of the photovoltaic panel installation frames are deflected or collapsed, the data read by the pressure sensor can be abnormal, and therefore a worker can clearly judge whether the positions of the photovoltaic panel installation frames at the adjacent positions of the photovoltaic panel installation frames are deflected or collapsed by reading the data acquired by the pressure sensor on each photovoltaic panel installation frame every day.

Description

Multifunctional solar photovoltaic panel mounting frame convenient to adjust

Technical Field

The invention relates to the technical field of photovoltaic panels, in particular to a multifunctional solar photovoltaic panel mounting rack convenient to adjust.

Background

The photovoltaic panel assembly is a power generation device capable of generating direct current when exposed to sunlight, and is composed of a thin solid photovoltaic cell almost made of semiconductor materials (such as silicon), and the photovoltaic panel is usually required to be fixedly installed by a support in the use process, so that the working stability of the photovoltaic panel can be ensured.

The regulation convenience of the common solar photovoltaic board mounting bracket in the use on market is lower, and the installation density of photovoltaic board is great generally, in the photovoltaic board use, the condition emergence that just photovoltaic board shadow sheltered from another photovoltaic board often can appear, and this can seriously influence the generating efficiency of photovoltaic board.

Accordingly, in view of the above, research and improvement are made to the existing structure and the existing defects, and a multifunctional solar photovoltaic panel mounting frame convenient to adjust is provided.

Disclosure of Invention

The invention aims to provide a multifunctional solar photovoltaic panel mounting rack convenient to adjust so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a multi-functional solar photovoltaic board mounting bracket convenient to adjust, includes supporting component, docking component and bears the subassembly, the top of supporting component is provided with first automatically controlled steering seat, and the outside of first automatically controlled steering seat is provided with the cylinder, and the inboard of cylinder is provided with the extension post, docking component settles the outer end at the extension post, and the inboard of extension post is provided with first motor, the output of first motor is connected with the steering column, the outer end of steering column is connected with detection component, and the top outside of steering column is connected with the automatically controlled steering seat of second, bear the subassembly and set up in the top outside of the automatically controlled steering seat of second.

Further, the supporting component comprises a touch floor, a thread seat, a screw lever and a drill bit, the thread seat is arranged on the periphery of the outer side of the touch floor, the screw rod is connected with the inner side of the thread seat, and the drill bit is connected with the outer side of the bottom of the screw rod.

Further, the thread seats are symmetrically distributed along the vertical center line of the touch floor, and the thread seats are in threaded connection with the screw rod.

Further, the first electric control steering seat drives the column body to rotate, and the extension column extends upwards from the inner side of the column body.

Further, the butt joint subassembly includes first cover seat, extension rod, first to buckle, second to buckle, locking bolt, spout, roll-off groove and tension spring, the outer end of first cover seat is connected with the extension rod, and the end-to-end connection of extension rod has first to buckle, first to buckle is kept away from extension rod one side and is connected with the second to buckle, first to buckle is connected with locking bolt to the inside middle-end of buckle with the second to buckle, and the spout has been seted up to the inboard of first to buckle, the roll-off groove has been seted up to the end of spout, be provided with tension spring between first to buckle and the second to buckle.

Further, the locking bolt slides on the inner side of the sliding groove, and the size of the sliding groove is larger than that of the locking bolt.

Further, the detection component comprises a second sleeve seat, a rotating rod, a reset spring, an elastic rod, an extrusion seat, a pressure sensor and a contact head, wherein the outer end of the second sleeve seat is connected with the rotating rod, the reset spring is arranged on the inner side of the rotating rod, the elastic rod is connected with the elastic rod, one side of the elastic rod, close to the second sleeve seat, is connected with the extrusion seat, the middle end of the inner side of the rotating rod is connected with the pressure sensor, and the outer end of the elastic rod is connected with the contact head.

Further, the elastic rod is connected with the rotating rod in a sleeved mode, and the elastic rod and the contact head are integrated.

Further, the bearing assembly comprises a fixed frame, a second motor, meshing gears, a plate frame and tooth grooves, wherein the second motor is connected to the outer end of the top of the fixed frame, the meshing gears are connected to the output end of the second motor, the plate frame is connected to the inner side of the fixed frame, and the tooth grooves are formed in the two sides of the outer portion of the plate frame.

Further, the meshing gears are meshed with the tooth grooves, and the fixed frame is connected with the plate frame in a sleeved mode.

The invention provides a multifunctional solar photovoltaic panel mounting rack convenient to adjust, which has the following beneficial effects:

1. after the supporting component is contacted with the ground, the upper part of the column body can rotate through the first electric control steering seat, when the equipment is arranged on the inclined ground, the equipment can be vertically arranged on the inclined ground through the rotation positioning of the first electric control steering seat, the arrangement stability of the equipment can be improved, the solar cell panel drives the steering column to rotate through the first motor after the arrangement of the solar cell panel in the frame of the plate body is finished, the bearing component can circumferentially rotate, the bearing component can always face the direction of the sun, the bearing component is driven to rotate through the second electric control steering seat, the bearing component can be positioned at an upper angle and a lower angle, the bearing component can always keep a good illumination angle with the sun, in order to guarantee the generating efficiency of equipment, and go up and down through the extension post in the post, can make the altitude mixture control of equipment, this can avoid two photovoltaic boards to lean on near and when there is the difference in height, one photovoltaic board causes shielding to another photovoltaic board, thereby influence its luminous efficacy's problem, in addition, drive the meshing gear through the second motor and rotate, enable meshing gear through the meshing with the tooth's socket drive plate body frame and carry out the displacement in fixed frame inboard, through making the plate body frame carry out the displacement, enable the plate body frame and adjacent plate body frame between the distance change, thereby reduce and interfere or take place the condition that shields with other plate body frame displacements, this still has higher regulation flexibility ratio after making equipment accomplish the fixation.

2. The invention has the advantages that the outer ends of the first pair of buckle plates and the second pair of buckle plates are connected with the extension rods, the extension rods positioned at one end of the second pair of buckle plates can be fixed with the other group of photovoltaic plate mounting frames, so that the connection of the two groups of photovoltaic plate mounting frames can be realized after the first pair of buckle plates and the second pair of buckle plates are fixed, the arrangement stability of the photovoltaic plate mounting frames can be greatly improved by connecting the plurality of groups of photovoltaic plate mounting frames, the probability of the photovoltaic plate mounting frames being scraped in heavy storm weather is reduced, in addition, when one group of photovoltaic plate mounting frames is stressed by tension, the generated tension can be transmitted to the first pair of buckle plates and the second pair of buckle plates by the extension rods, and after the first pair of buckle plates and the second pair of buckle plates are stressed by tension, the tension springs in the first pair of buckle plates can be extended by the tension springs, this makes first to buckle and second to buckle can outwards move because of the pulling force, first to buckle and second are to buckle in the in-process that carries out the external displacement, the latch bolt can take place the displacement at the spout inboard, when the photovoltaic board mounting bracket receives external force too big, the latch bolt can remove the position to the roll-off groove in the spout, and roll-off from the roll-off groove, tension spring and first to buckle, the second is to buckle the metal sheet and link up with the C, after the latch bolt roll-off first to buckle, the second is to buckling the inside, the C buckle metal sheet can take place the deformation because of the pulling force is too big, thereby make first to buckle, the second separates smoothly to buckling, thereby avoid a set of photovoltaic board mounting bracket to receive the condition that external force too big influence periphery photovoltaic board mounting bracket appears, this makes the safety in utilization of equipment further promote.

3. According to the invention, the steering column drives the bearing assembly to rotate along with the rotating rod in the daily sun-facing process, the contact heads at the outer end of the elastic rod and the contact heads on the photovoltaic panel installation frames at the adjacent positions are contacted with each other after rotating to the overlapping positions, the contact heads can extrude the elastic rod to displace towards the inner side of the rotating rod, the elastic rod can extrude the reset spring in the displacement process of the elastic rod towards the inner side of the rotating rod, meanwhile, the elastic rod can drive the extruding seat to move towards the pressure sensor and extrude the pressure sensor, if the photovoltaic panel installation frames at the adjacent positions of the photovoltaic panel installation frames are deflected or collapsed, the data read by the pressure sensor can be abnormal (overlarge or not inductive), so that a worker can clearly judge whether the photovoltaic panel installation frames at the adjacent positions of the photovoltaic panel installation frames are deflected or collapsed or not through reading the data acquired by the pressure sensor on each photovoltaic panel installation frame every day, and the overhaul difficulty of equipment can be greatly reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a multifunctional solar photovoltaic panel mounting bracket with easy adjustment according to the present invention;

FIG. 2 is an enlarged schematic view of the structure of the multifunctional solar photovoltaic panel mounting rack of FIG. 1A, which is convenient to adjust;

FIG. 3 is a schematic diagram of a tension spring structure of a multifunctional solar photovoltaic panel mounting bracket for easy adjustment according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of the multifunctional solar photovoltaic panel mounting bracket of FIG. 2B for easy adjustment;

FIG. 5 is a schematic diagram of a detection assembly of a multifunctional solar photovoltaic panel mounting rack with convenient adjustment according to the present invention;

fig. 6 is a schematic structural view of a bearing assembly of the multifunctional solar photovoltaic panel mounting rack convenient to adjust.

In the figure: 1. a support assembly; 101. a touch panel; 102. a screw seat; 103. a wire lever; 104. a drill bit; 2. the first electric control steering seat; 3. a column; 4. an extension column; 5. a docking assembly; 501. a first sleeve seat; 502. an extension rod; 503. a first pair of pinch plates; 504. a second pair of pinch plates; 505. a locking bolt; 506. a chute; 507. slide out of the groove; 508. a tension spring; 6. a first motor; 7. a steering column; 8. a detection assembly; 801. a second sleeve seat; 802. a rotating lever; 803. a return spring; 804. an elastic rod; 805. extruding a base; 806. a pressure sensor; 807. a contact; 9. the second electric control steering seat; 10. a carrier assembly; 1001. a fixed frame; 1002. a second motor; 1003. a meshing gear; 1004. a plate frame; 1005. tooth slots.

Detailed Description

Referring to fig. 1 to 6, the present invention provides the following technical solutions: the utility model provides a multi-functional solar photovoltaic board mounting bracket convenient to adjust, including supporting component 1, docking subassembly 5 and carrier assembly 10, the top of supporting component 1 is provided with first automatically controlled steering seat 2, and the outside of first automatically controlled steering seat 2 is provided with cylinder 3, and the inboard of cylinder 3 is provided with extends post 4, docking subassembly 5 settles the outer end at extending post 4, and the inboard of extending post 4 is provided with first motor 6, the output of first motor 6 is connected with steering column 7, the outer end of steering column 7 is connected with detection component 8, and the top outside of steering column 7 is connected with second automatically controlled steering seat 9, carrier assembly 10 settles in the top outside of second automatically controlled steering seat 9.

Referring to fig. 1 to 6, the support assembly 1 includes a touch panel 101, a screw seat 102, a screw rod 103 and a drill bit 104, the screw seat 102 is disposed around the outer side of the touch panel 101, the screw rod 103 is connected to the inner side of the screw seat 102, the drill bit 104 is connected to the outer side of the bottom of the screw rod 103, the screw seat 102 is symmetrically distributed along the vertical center line of the touch panel 101, the screw seat 102 is in threaded connection with the screw rod 103, the first electric control steering seat 2 drives the column body 3 to rotate, the extension column 4 extends upwards from the inner side of the column body 3, the docking assembly 5 includes a first set of seat 501, an extension rod 502, a first pair of buckle plates 503, a second pair of buckle plates 504, a locking bolt 505, a chute 506, a sliding groove 507 and a tension spring 508, the outer end of the first set of seat 501 is connected to the extension rod 502, the end of the extension rod 502 is connected to the first pair of buckle plates 503, one side of the first pair of buckle plates 503 far from the extension rod 502 is connected to the second pair of buckle plates 504, the middle ends of the interiors of the first pair of buckle plates 503 and the second pair of buckle plates 504 are connected with a locking bolt 505, the inner side of the first pair of buckle plates 503 is provided with a sliding groove 506, the tail end of the sliding groove 506 is provided with a sliding groove 507, a tension spring 508 is arranged between the first pair of buckle plates 503 and the second pair of buckle plates 504, the locking bolt 505 slides inside the sliding groove 506, the size of the sliding groove 507 is larger than that of the locking bolt 505, the detection assembly 8 comprises a second sleeve seat 801, a rotating rod 802, a reset spring 803, an elastic rod 804, a pressing seat 805, a pressure sensor 806 and a contact head 807, the outer end of the second sleeve seat 801 is connected with the rotating rod 802, the inner side of the rotating rod 802 is provided with a reset spring 803, the inner side of the rotating rod 802 is connected with an elastic rod 804, one side of the elastic rod 804 close to the second sleeve seat 801 is connected with the pressing seat 805, the middle end of the inner side of the rotating rod 802 is connected with the pressure sensor 806, the outer side of the elastic rod 804 is connected with the contact head 807, the elastic rod 804 is connected with the rotating rod 802 in a sleeving manner, the elastic rod 804 and the contact head 807 are integrated, the bearing assembly 10 comprises a fixed frame 1001, a second motor 1002, a meshing gear 1003, a plate frame 1004 and a tooth socket 1005, the outer end of the top of the fixed frame 1001 is connected with the second motor 1002, the output end of the second motor 1002 is connected with the meshing gear 1003, the inner side of the fixed frame 1001 is connected with the plate frame 1004, tooth sockets 1005 are formed in two sides of the outer part of the plate frame 1004, the meshing gear 1003 is meshed with the tooth sockets 1005, and the fixed frame 1001 is connected with the plate frame 1004 in a sleeving manner;

the specific operation is as follows: when the equipment is laid, a worker can rotate the wire lever 103 on the inner side of the threaded seat 102 by screwing the screw rod 103 after the contact plate 101 is contacted with the ground, so that the drill bit 104 can gradually move towards the inside of the soil layer to realize stable contact between the equipment and the ground, the support component 1 works through the first electric control steering seat 2 after the contact of the support component 1 with the ground is finished, the column 3 can rotate, when the equipment is laid on the inclined ground, the equipment can still be vertically arranged on the inclined ground through the rotary position adjustment of the first electric control steering seat 2, the arrangement stability of the equipment can be improved, the solar cell panel drives the steering column 7 to rotate through the first motor 6 after the arrangement of the solar cell panel in the plate body frame 1004 is finished, the bearing component 10 can rotate circumferentially, the bearing component 10 can always face the direction of the sun, the bearing component 10 is driven to rotate through the second electric control steering seat 9, the bearing assembly 10 can be positioned at an upper angle and a lower angle, the bearing assembly 10 can always keep a good illumination angle with the sun, so as to ensure the power generation efficiency of equipment, the extending column 4 in the column 3 is used for lifting, the height of the equipment can be adjusted, the problem that when two photovoltaic panels are too close and have a height difference, one photovoltaic panel shields the other photovoltaic panel, so that the luminous efficiency is influenced is solved, in addition, the second motor 1002 drives the meshing gear 1003 to rotate, the meshing gear 1003 drives the plate frame 1004 to displace at the inner side of the fixed frame 1001 through meshing with the tooth grooves 1005, the distance between the plate frame 1004 and the adjacent plate frame 1004 is changed through the displacement of the plate frame 1004, the condition that the interference or shielding occurs with the displacement of the other plate frame 1004 is reduced, this makes equipment still have higher degree of flexibility of adjusting after accomplishing the fixed, first cover seat 501 can be stable fix on cylinder 3 through the bolt, first pair of buckle 503 and second are all connected with extension pole 502 to buckle 504 outer ends, and the extension pole 502 that is located second pair of buckle 504 one end can be fixed with another group of photovoltaic board mounting bracket, this makes first pair of buckle 503 and second pair of buckle 504 accomplish after fixing, can realize the linking of two sets of photovoltaic board mounting brackets, and through linking up the multiunit photovoltaic board mounting bracket, can be very big promote the settling stability of photovoltaic board mounting bracket, reduce its probability of being scraped down in the weather of heavy storm, in addition when a set of photovoltaic board mounting bracket receives the pulling force, the pulling force that produces can be passed to first pair of buckle 503 and second pair of buckle 504 through extension pole 502, and after first pair of buckle 503 and second pair of buckle 504 receive the pulling force, the tension springs 508 in the photovoltaic panel mounting frame extend due to tension, so that the first pair of buckle plates 503 and the second pair of buckle plates 504 can move outwards due to tension, the locking bolts 505 can displace inside the sliding grooves 506 in the process of moving outwards, when the photovoltaic panel mounting frame is excessively large by external force, the locking bolts 505 can move to the position of the sliding grooves 507 in the sliding grooves 506 and slide out from the sliding grooves 507, the tension springs 508 are connected with the first pair of buckle plates 503 and the second pair of buckle plates 504 by adopting C buckle metal sheets, after the locking bolts 505 slide out of the first pair of buckle plates 503 and the second pair of buckle plates 504, the C buckle metal sheets can deform due to excessive tension, so that the first pair of buckle plates 503 and the second pair of buckle plates 504 are smoothly separated, the situation that a group of photovoltaic panel mounting frame is excessively influenced by external force and the peripheral photovoltaic panel mounting frame is avoided, the use safety of the photovoltaic panel mounting frame is further improved, the steering column 7 drives the bearing assembly 10 to rotate towards the sun in the daily process, can drive the dwang 802 to rotate together, the contact 807 on the photovoltaic board mounting frame at the adjacent position is contacted with each other after rotating to the coincidence site, the contact 807 can extrude the dwang 804 to displace towards the inside of the dwang 802, the in-process of the dwang 802 inboard displacement can extrude reset spring 803, simultaneously, the dwang 804 can drive the extrusion seat 805 to move towards the direction of the pressure sensor 806, and extrude the pressure sensor 806, if the photovoltaic board mounting frame at the adjacent position of the photovoltaic board mounting frame deflects or collapses, the data read by the pressure sensor 806 can be abnormal (overlarge or not inductive), and the personnel can clearly judge whether the photovoltaic board mounting frame at the adjacent position of the photovoltaic board mounting frame deflects or collapses through reading the data acquired by the pressure sensor 806 on each photovoltaic board mounting frame every day, and the overhaul difficulty of equipment can be greatly reduced.

In summary, when the multifunctional solar photovoltaic panel mounting rack convenient to adjust is used, firstly, when equipment is arranged, a worker firstly contacts a touch panel 101 with the ground, and then screws a screw rod 103 to enable a screw rod 103 to rotate at the inner side of a screw seat 102, so that a drill bit 104 can gradually displace towards the inside of a soil layer to realize stable contact between the equipment and the ground, after the supporting component 1 is in contact with the ground, the supporting component works through a first electric control steering seat 2, the part above a column 3 can be rotated, when the equipment is arranged on the inclined ground, the equipment can be vertically arranged on the inclined ground still through rotation and positioning of the first electric control steering seat 2, and the arrangement stability of the equipment can be improved;

after the solar cell panel is placed inside the plate frame 1004, the steering column 7 is driven to rotate by the first motor 6, so that the bearing assembly 10 can rotate circumferentially, the bearing assembly 10 can always face the direction of the sun, the bearing assembly 10 is driven to rotate by the second electric control steering seat 9, the bearing assembly 10 can be positioned at an upper angle and a lower angle, the bearing assembly 10 can always keep a good illumination angle with the sun so as to ensure the power generation efficiency of equipment, the extending column 4 in the column 3 is used for lifting, the height of the equipment can be adjusted, the problem that the light-emitting efficiency of the two photovoltaic panels is influenced because one photovoltaic panel is blocked by the other photovoltaic panel when the two photovoltaic panels are close too close and have a height difference is avoided, in addition, the meshing gear 1003 is driven to rotate by the second motor 1002, the meshing gear 1003 can drive the plate frame 1004 to displace inside the fixed frame 1001 through meshing with a tooth groove 1005, the distance between the plate frame 1004 and the adjacent plate frame 1004 can be changed, and the equipment can be adjusted after the interference between the plate frame 1004 and the adjacent plate frame is reduced or the equipment is adjusted to have high activity after the equipment is fixed;

then when a group of photovoltaic panel installation racks are subjected to tensile force, the generated tensile force can be transmitted to the first pair of pinch plates 503 and the second pair of pinch plates 504 through the extension rod 502, after the first pair of pinch plates 503 and the second pair of pinch plates 504 are subjected to tensile force, the internal tension springs 508 of the first pair of pinch plates 503 and the second pair of pinch plates 504 are extended by the tensile force, so that the first pair of pinch plates 503 and the second pair of pinch plates 504 can move outwards by the tensile force, the locking bolts 505 displace inside the sliding grooves 506 in the process of moving outwards, when the photovoltaic panel installation racks are subjected to excessive external force, the locking bolts 505 move to the positions of the sliding grooves 507 in the sliding grooves 506 and slide out from the sliding grooves 507, and after the tension springs 508 slide out of the first pair of pinch plates 503 and the second pair of pinch plates 504, the C buckle metal sheets are deformed by the excessive tensile force, so that the first pair of pinch plates 503 and the second pair of pinch plates 504 are smoothly separated, and the photovoltaic panel installation racks are further lifted by the excessive external force, and the safety of the photovoltaic installation racks is further improved;

finally, the steering column 7 drives the bearing assembly 10 to rotate towards the sun in the daily process, the rotating rod 802 can be driven to rotate together, the contact heads 807 on the outer end contact 807 of the elastic rod 804 and the photovoltaic panel installation frames at adjacent positions are contacted with each other after rotating to the overlapping points, the contact heads 807 can extrude the elastic rod 804 to displace towards the inner side of the rotating rod 802, the elastic rod 804 can extrude the reset spring 803 in the inner side displacement process of the rotating rod 802, meanwhile, the elastic rod 804 can drive the extrusion seat 805 to move towards the pressure sensor 806 and extrude the pressure sensor 806, if the photovoltaic panel installation frames at the adjacent positions of the photovoltaic panel installation frames are deflected or collapsed, the data read by the pressure sensor 806 are abnormal (overlarge or not sensed), so that a worker can clearly judge whether the photovoltaic panel installation frames at the adjacent positions of the photovoltaic panel installation frames are deflected or collapsed or not by reading the data acquired by the pressure sensor 806 on each photovoltaic panel installation frame every day, and the overhaul difficulty of equipment can be greatly reduced.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (4)

1. The utility model provides a multifunctional solar photovoltaic board mounting bracket convenient to adjust, its characterized in that, including supporting component (1), interfacing assembly (5) and carrier assembly (10), the top of supporting component (1) is provided with first automatically controlled steering seat (2), and the outside of first automatically controlled steering seat (2) is provided with cylinder (3), and the inboard of cylinder (3) is provided with extension post (4), interfacing assembly (5) settle in the outer end of extension post (4), and the inboard of extension post (4) is provided with first motor (6), the output of first motor (6) is connected with steering column (7), the outer end of steering column (7) is connected with detection component (8), and the top outside of steering column (7) is connected with second automatically controlled steering seat (9), carrier assembly (10) are disposed in the top outside of second automatically controlled steering seat (9), interfacing assembly (5) are including first cover seat (501), extension pole (502), first pair of buckle (503), second pair of buckle (505), second pair of buckle (506), latch bolt (506) and extension pole (502) are connected with one and are connected with extension pole (502) outside the extension groove (503), the first pair of buckle plates (503) is far away from one side of the extension rod (502) and is connected with a second pair of buckle plates (504), the middle ends of the interiors of the first pair of buckle plates (503) and the second pair of buckle plates (504) are connected with a locking bolt (505), a sliding groove (506) is formed in the inner side of the first pair of buckle plates (503), a sliding-out groove (507) is formed in the tail end of the sliding groove (506), a tension spring (508) is arranged between the first pair of buckle plates (503) and the second pair of buckle plates (504), the locking bolt (505) slides in the inner side of the sliding groove (506), the size of the sliding-out groove (507) is larger than that of the locking bolt (505), the detection assembly (8) comprises a second sleeve seat (801), a rotating rod (802), a reset spring (803), an elastic rod (804), a pressing seat (805), a pressure sensor (806) and a contact head (807), the outer end of the second sleeve seat (801) is connected with the rotating rod (802), the inner side of the rotating rod (802), the rotating rod (803) is provided with the reset spring (802), and the inner side of the rotating rod (803) and the elastic sensor (803) is connected with the elastic sensor (805), the outside end-to-end connection of elastic rod (804) has contact (807), elastic rod (804) cup joints with dwang (802) and is connected, and elastic rod (804) are integrated with contact (807), bear subassembly (10) including fixed frame (1001), second motor (1002), meshing gear (1003), plate body frame (1004) and tooth's socket (1005), the top outer end of fixed frame (1001) is connected with second motor (1002), and the output of second motor (1002) is connected with meshing gear (1003), the inboard of fixed frame (1001) is connected with plate body frame (1004), and tooth's socket (1005) have been seted up to the outside both sides of plate body frame (1004), meshing gear (1003) and tooth's socket (1005) intermeshing, fixed frame (1001) cup joints with plate body frame (1004) and is connected.

2. The multifunctional solar photovoltaic panel mounting frame convenient to adjust according to claim 1, wherein the supporting component (1) comprises a touch panel (101), a thread seat (102), a screw rod (103) and a drill bit (104), the thread seat (102) is arranged on the periphery of the outer side of the touch panel (101), the screw rod (103) is connected to the inner side of the thread seat (102), and the drill bit (104) is connected to the outer side of the bottom of the screw rod (103).

3. The multifunctional solar photovoltaic panel installation frame convenient to adjust according to claim 2, wherein the threaded seats (102) are symmetrically distributed along the vertical center line of the contact floor (101), and the threaded seats (102) are in threaded connection with the screw rod (103).

4. The multifunctional solar photovoltaic panel mounting rack convenient to adjust according to claim 1, wherein the first electric control steering seat (2) drives the column body (3) to rotate, and the extension column (4) extends upwards from the inner side of the column body (3).