CN119171807A - A kind of photovoltaic panel and its fixed support leg type special construction platform - Google Patents

Abstract

The invention relates to the technical field of photovoltaic installation equipment, in particular to a support leg type special construction platform for a photovoltaic panel and a fixed support thereof, which comprises a tubular pile, wherein a truss is arranged at the top end of the tubular pile, the photovoltaic panel is fixedly arranged at the top end of the truss, a first support leg and a second support leg are symmetrically and fixedly arranged at the front end and the rear end of the top of the first construction platform, the lifting device is fixedly installed on the top end of the first construction platform, which is close to the first supporting leg, the crane is symmetrically arranged on the top end of the first construction platform, the sliding rail is symmetrically arranged on the top end of the first construction platform, which is far away from the first supporting leg, the ship changing device is arranged on the top end of the sliding rail, the hydraulic device is installed in the ship changing device, and the windlass is arranged at four corners of the top end of the first construction platform. Through setting up of side device, supporting part and jacking device, realized that photovoltaic construction platform carries out guided type lifting and stable type location's purpose.

Description

Photovoltaic board and special construction platform of landing leg formula of fixed bolster thereof

Technical Field

The invention relates to the technical field of photovoltaic installation equipment, in particular to a support leg type special construction platform for a photovoltaic panel and a fixing support of the photovoltaic panel.

Background

The offshore photovoltaic power generation is used as a novel field in the photovoltaic power generation, expands the space of the photovoltaic power generation, and opens up a new way for upgrading a novel green low-carbon energy system and a propulsion energy supply structure of the component. Offshore photovoltaic engineering near coasts widely uses fixed pile group foundations as offshore photovoltaic foundations, and truss and photovoltaic fixed supports and photovoltaic modules are efficiently and safely installed among dense pile groups, so that a great amount of manpower, materials, equipment and funds are required to be input for construction.

At present, in offshore photovoltaic engineering, a scaffold platform is mostly erected between piles in the process of installing a photovoltaic fixing support and a photovoltaic module among dense pile groups, and personnel install the scaffold platform on the fixing platform. The technology mainly comprises the steps that constructors install anchor clamps on pipe piles while taking a ship at a high tide level, transverse I-steel or H-steel is installed on the anchor clamps, transverse and longitudinal round steel pipes are erected on the steel, the steel pipes are connected into a whole through bayonets, scaffold plates are paved on a steel pipe net frame, the scaffold plates are fixed, and a fixing platform between piles is built.

An operation platform for installing an offshore photovoltaic frame and an installation method thereof belong to the technical field of offshore photovoltaic frame installation, as disclosed in China patent publication No. CN 118563741A. The operation platform comprises a supporting mechanism, a positioning mechanism and a guide plate, wherein the supporting mechanism comprises a plurality of supporting beams which are circumferentially arranged along the tubular pile and an operation platform which is arranged on the supporting beams, the positioning mechanism is fixed on the supporting mechanism and comprises an annular fixing piece which is used for fixing the supporting mechanism on the periphery of the tubular pile, and the guide plate is fixed on the annular fixing piece and is used for temporarily restraining the photovoltaic frame on the tubular pile. The operation platform is fixed with the annular fixing piece, and is arranged around the tubular pile through the annular fixing piece, so that a stable environment can be provided for the installation of the photovoltaic frame, and the installation operation is prevented from being interfered by excessive wind and waves.

An integral installation system of an offshore photovoltaic bracket, which is disclosed in China patent publication No. CN220067272U, comprises a photovoltaic bracket module, a transportation module, a photovoltaic module and a photovoltaic module, wherein the transportation module is detachably connected with the photovoltaic bracket module and is configured to transport the photovoltaic bracket module to a target installation site and complete the installation work of the photovoltaic bracket module and a pile foundation, the photovoltaic bracket module comprises a jig frame module, the jig frame module is detachably connected with the transportation module, the truss module is detachably connected with the jig frame module, and the photovoltaic module is detachably connected with the truss module.

At present, photovoltaic construction platform on the market is when using for the equipment and the construction that are inconvenient for photovoltaic are quick owing to adopt the mode installation of concatenation, simultaneously, current photovoltaic construction platform is when using, owing to float on the surface of water, can appear rocking the phenomenon when assembling photovoltaic module, makes current photovoltaic construction platform unable to carry out the work of guided type lifting and stable type location, consequently need an equipment to improve it to above-mentioned problem.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a support leg type special construction platform for a photovoltaic panel and a fixing support thereof.

The technical scheme includes that the photovoltaic panel comprises a tubular pile, wherein a truss is arranged at the top end of the tubular pile, and the photovoltaic panel is fixedly arranged at the top end of the truss.

The utility model provides a special construction platform of landing leg of fixed bolster, includes first construction platform, first construction platform's top front end and rear end symmetry fixed mounting have first landing leg and second landing leg, fixed mounting has jacking device on the top that first construction platform is close to first landing leg, first construction platform's top symmetry is provided with crane, first construction platform keeps away from the top symmetry of first landing leg and is provided with the slide rail, the top of slide rail is provided with the device of changing the ship, the internally mounted of device of changing the ship has hydraulic means, first construction platform's top four corners is provided with the hoist engine.

Specifically, the first construction platform further comprises side end devices and supporting components, and the side end devices are connected to the two sides of the top of the supporting components in a sliding mode.

Specifically, the side end device comprises a guide rod, a first spring, a peripheral support, an inner peripheral support and a transmission rack, wherein the transmission rack is symmetrically and fixedly arranged on the left side of the inner peripheral support, the peripheral support is slidably inserted into the right side of the inner peripheral support, the first spring is symmetrically and fixedly arranged between the peripheral support and the inner peripheral support, and the guide rod slidably penetrates through the inner peripheral support and is connected with the left side of the peripheral support.

Specifically, the supporting component comprises an aligning device, a transmission device and a guide device, wherein the aligning device is symmetrically and fixedly arranged at two ends of the top of the guide device, and the transmission device is symmetrically and rotatably arranged at the centers of two ends of the guide device.

Specifically, the aligning device comprises an aligning clamping frame, a supporting vertical plate, a second spring, a connecting substrate, a connecting rope, a positioning substrate, a first gear and a winding wheel, wherein the first gear is rotatably arranged on the positioning substrate, the winding wheel is fixedly arranged at the center of the rear end of the first gear, the connecting rope is fixedly arranged on the outer ring of the winding wheel, the connecting substrate is fixedly arranged at one end of the connecting rope, which is far away from the winding wheel, the aligning clamping frame and the second spring are fixedly arranged at the top and the bottom of the side end, which are far away from the connecting rope, of the connecting substrate, and the supporting vertical plate is fixedly arranged at one end, which is far away from the connecting substrate, of the second spring.

Specifically, the transmission device comprises a second gear and a transmission worm gear, wherein the second gear is fixedly arranged at the center of the side end of the transmission worm gear.

Specifically, guider includes second construction platform, uide bushing board, biax motor, screw actuating system and drive worm, uide bushing board fixed mounting is in the top four corners of second construction platform, biax motor fixed mounting is in the both ends center of second construction platform, drive worm fixed mounting is close to the both ends center of uide bushing board at biax motor, screw actuating system symmetry sets up in the rear end bottom of second construction platform.

Specifically, the inside at the uide bushing board is pegged graft in the interior support slip, the transmission worm wheel symmetry rotates and installs the both ends at second construction platform, just transmission worm wheel and drive worm meshing, the bottom of supporting the riser is connected near the top of uide bushing board with second construction platform, location base plate fixed mounting is near the top of biax motor at second construction platform, the top meshing of transmission rack and second gear, the side meshing of first gear and second gear, just first gear is located the below of transmission rack.

Specifically, the bottom symmetry fixed mounting of connection base plate has the draw-in key, just the draw-in groove has been seted up to the top symmetry that the second construction platform is close to the uide bushing board, the circular slot has been seted up to the side center that counterpoint card frame deviates from the connecting rope, square hole has been seted up to the inside of uide bushing board.

The invention has the beneficial effects that:

Firstly, when the invention is used, the defect that the traditional construction ship cannot perform anchoring and positioning in a space with narrow pile spacing is overcome, the landing leg is adopted for positioning, meanwhile, the straight line walking between piles can be completed, the collision between piles is avoided, the pile piles are well protected, the truss hoisting and the installation of the photovoltaic modules can be realized at one time, the construction between piles is avoided, the installation efficiency is greatly improved, compared with the situation that a platform is erected on the pile piles, the moving platform solves the problem that the material turnover and the installation of the fixed platform between the pile piles are difficult, the installation efficiency of the photovoltaic modules is improved, the cost is reduced, the manpower and material resources are saved, and the feasibility and the safety of the installation of the photovoltaic modules are improved.

When the double-shaft motor is started, the transmission worm can be driven to rotate, so that the second gear can drive the inner support to move to be in contact with the tubular pile, the second construction platform can be placed at the center of the tubular pile, the installation accuracy of the photovoltaic panel is improved, floating displacement of the second construction platform can be prevented by positioning the alignment clamping frame and the tubular pile in a clamping manner, and the work of limiting and positioning the second construction platform is completed.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a top view of a body of the present invention;

FIG. 2 is a side view of a main diagram of the present invention;

FIG. 3 is a schematic perspective view of a front view of a second embodiment of a first construction platform according to the present invention;

FIG. 4 is a schematic view of a front perspective view of a side device according to the present invention;

FIG. 5 is a schematic view of a front perspective view of a support member of the present invention;

FIG. 6 is a schematic view of a front perspective view of the alignment device of the present invention;

FIG. 7 is a schematic view of a side view perspective of the transmission of the present invention;

fig. 8 is a schematic view of a front perspective view of a guide device according to the present invention.

In the figure, a first supporting leg, a 2-jacking device, a 3-first construction platform, a 4-sliding rail, a 5-ship changing device, a 6-second supporting leg, a 7-photovoltaic panel, an 8-hydraulic device, a 9-tubular pile, a 10-truss, an 11-crane, a 12-winch, a 13-side end device, a 14-supporting component, a 15-guide rod, a 16-first spring, a 17-peripheral bracket, a 18-inner peripheral bracket, a 19-transmission rack, a 20-alignment device, a 21-transmission device, a 22-guide device, a 23-alignment clamping frame, a 24-supporting vertical plate, a 25-second spring, a 26-connecting base plate, a 27-connecting rope, a 28-positioning base plate, a 29-first gear, a 30-winding wheel, a 31-second gear, a 32-transmission worm gear, a 33-second construction platform, a 34-guide sleeve plate, a 35-double-shaft motor, a 36-propeller driving system and a 37-transmission worm.

Detailed Description

In order that those skilled in the art will better understand the present application, a technical solution in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, shall fall within the scope of the present application.

The invention is further described below with reference to the accompanying drawings.

Embodiment 1 as shown in fig. 1 and 2, a photovoltaic panel of the present invention includes a pipe pile 9, a truss 10 is installed at the top end of the pipe pile 9, and a photovoltaic panel 7 is fixedly installed at the top end of the truss 10.

The utility model provides a special construction platform of landing leg of fixed bolster, including first construction platform 3, first landing leg 1 and second landing leg 6 are installed to the top front end and the rear end symmetry of first construction platform 3, fixed mounting has jacking device 2 on the top that first construction platform 3 is close to first landing leg 1, the top symmetry of first construction platform 3 is provided with crane 11, the top symmetry that first construction platform 3 kept away from first landing leg 1 is provided with slide rail 4, the top of slide rail 4 is provided with the device of changing the ship 5, the internally mounted of device of changing the ship 5 has hydraulic means 8, the top four corners of first construction platform 3 is provided with hoist engine 12.

The working principle of example 1 is: when the device is used, after the installation of the two rows of tubular piles 9 is completed, the distance between the tubular piles 9 meets the requirement that the distance between the horizontal piles is below 8m and the longitudinal distance is above 16m, the first construction platform 3 is towed to between the two groups of tubular piles 9 by anchor boat, after the first construction platform 3 is flush with the tubular piles 9, the winch 12 on the first construction platform 3 is started, so that the first support leg 1 and the second support leg 6 quickly enter mud under the action of gravity to stabilize the ship body, the first support leg 1 and the second support leg 6 are not fixed with the first construction platform 3, the platform can move up and down along with tidal water, the crane 11 is started at the same time after the first construction platform 3 is stabilized, the truss 10 which is placed on the first construction platform 3 in advance is hoisted, the truss 10 is placed on the top of the tubular piles 9 and is fixed, after the installation of the truss 10 is completed, workers can assemble the photovoltaic fixing bracket and the photovoltaic assembly at the jacking device 2, after all the components are assembled, starting the jacking device 2, moving the jacking device 2 to the top of the truss 10, placing a fixed support and a photovoltaic plate on the truss 10 by a worker, fixing the fixed support and the photovoltaic plate by bolts, completing the installation of the photovoltaic component of a photovoltaic matrix, after the photovoltaic component in the photovoltaic matrix is installed, descending the jacking device 2, at the moment, starting the 2 windlass 12 at the front part of the first construction platform 3, lifting the first supporting leg 1 to separate from the mud surface, starting the windlass 12 at the front end of the first construction platform 3 to descend after the first construction platform 3 moves by one pile distance under the pushing of the hydraulic device 8, inserting the first supporting leg 1 into the mud to stabilize the platform, then starting the windlass 12 at the rear end of the top of the first construction platform 3 again, starting the hydraulic device 8 again after the second supporting leg 6 is separated from the mud surface, and after the first supporting leg 1 is used as a supporting point to drive the whole ship body to move by one pile distance, the second supporting leg 6 is released, the platform is stabilized, the action of the previous unit is executed, and the installation of the photovoltaic module in the next photovoltaic matrix is completed.

In embodiment 2, on the basis of embodiment 1, as shown in fig. 3, the first construction platform 3 further includes a side end device 13 and a supporting member 14, and the side end device 13 is slidably inserted into both sides of the top of the supporting member 14.

As shown in fig. 4, the side end device 13 includes a guide rod 15, a first spring 16, a peripheral support 17, an inner peripheral support 18 and a driving rack 19, the driving rack 19 is symmetrically and fixedly mounted on the left side of the inner peripheral support 18, the peripheral support 17 is slidably inserted into the right side of the inner peripheral support 18, the first spring 16 is symmetrically and fixedly mounted between the peripheral support 17 and the inner peripheral support 18, the guide rod 15 slidably penetrates through the inner peripheral support 18 and is connected with the left side of the peripheral support 17, and through the arrangement of the guide rod 15, the phenomenon of skew during displacement of the peripheral support 17 can be prevented.

As shown in fig. 5, the supporting component 14 includes an alignment device 20, a transmission device 21 and a guiding device 22, wherein the alignment device 20 is symmetrically and fixedly installed at two ends of the top of the guiding device 22, the transmission device 21 is symmetrically and rotatably installed at two ends of the guiding device 22, and can support the alignment device 20 to perform guiding and positioning.

As shown in fig. 6, the alignment device 20 includes an alignment clamping frame 23, a supporting riser 24, a second spring 25, a connecting substrate 26, a connecting rope 27, a positioning substrate 28, a first gear 29 and a winding wheel 30, wherein the first gear 29 is rotatably installed on the positioning substrate 28, the winding wheel 30 is fixedly installed at the center of the rear end of the first gear 29, the connecting rope 27 is fixedly installed on the outer ring of the winding wheel 30, the connecting substrate 26 is fixedly installed at one end of the connecting rope 27 far away from the winding wheel 30, the alignment clamping frame 23 and the second spring 25 are fixedly installed at the top and bottom of the side end of the connecting substrate 26 far away from the connecting rope 27, and the supporting riser 24 is fixedly installed at one end of the second spring 25 far away from the connecting substrate 26, and can be buckled on the outer ring of the pipe pile 9 through the alignment clamping frame 23, so that the first construction platform 3 can be stably limited.

As shown in fig. 7, the transmission device 21 includes a second gear 31 and a transmission worm wheel 32, wherein the second gear 31 is fixedly installed at the center of the side end of the transmission worm wheel 32, and when the transmission worm 37 drives the transmission worm wheel 32 to rotate, the second gear 31 can be simultaneously driven to rotate.

Referring to fig. 8, the guiding device 22 includes a second construction platform 33, a guiding sleeve plate 34, a dual-shaft motor 35, a propeller driving system 36 and a driving worm 37, wherein the guiding sleeve plate 34 is fixedly installed at four corners of the top end of the second construction platform 33, the dual-shaft motor 35 is fixedly installed at two ends of the second construction platform 33, the driving worm 37 is fixedly installed at two ends of the dual-shaft motor 35 near to the two ends of the guiding sleeve plate 34, the propeller driving system 36 is symmetrically arranged at the bottom of the rear end of the second construction platform 33, and the second construction platform 33 can be driven to integrally displace through the arrangement of the propeller driving system 36.

The inner peripheral support 18 is slidably inserted into the guide sleeve plate 34, the transmission worm wheel 32 is symmetrically and rotatably arranged at two ends of the second construction platform 33, the transmission worm wheel 32 is meshed with the transmission worm 37, the bottom end of the supporting vertical plate 24 is connected with the top end of the second construction platform 33, which is close to the guide sleeve plate 34, the positioning base plate 28 is fixedly arranged at the top end of the second construction platform 33, which is close to the double-shaft motor 35, the transmission rack 19 is meshed with the top end of the second gear 31, the first gear 29 is meshed with the side end of the second gear 31, the first gear 29 is positioned below the transmission rack 19, the bottom end of the connecting base plate 26 is symmetrically and fixedly provided with a clamping key, the top end of the second construction platform 33, which is close to the guide sleeve plate 34, is symmetrically provided with a clamping groove, the center of the side end of the aligning clamping frame 23, which is away from the connecting rope 27, is provided with a round groove, and the inside of the guide sleeve plate 34 is provided with a square hole.

In the implementation of the embodiment, the second construction platform 33 can move between the two groups of pipe piles 9 by starting the propeller drive system 36, meanwhile, the double-shaft motor 35 is started to drive the clockwise transmission worm 37 to rotate, the transmission worm wheel 32 is meshed with the transmission worm 37, so that the transmission worm 37 can drive the transmission worm wheel 32 and the second gear 31 to rotate simultaneously when rotating, and the second gear 31 can drive the inner peripheral support 18 to a position far away from the second construction platform 33 until the outer peripheral support 17 moves to be in contact with the surface of the pipe piles 9 close to the second construction platform 33 when rotating, thereby preventing the second construction platform 33 from being askew when driving, meanwhile, the outer peripheral support 17 can be allowed to displace inwards of the inner peripheral support 18 by the arrangement of the first spring 16, a plastic gasket is fixedly arranged on one end surface of the peripheral bracket 17, which is far away from the inner peripheral bracket 18, so that the peripheral bracket 17 and the tubular pile 9 can be prevented from being collided with each other in a rigid manner, the peripheral bracket 17 can be displaced towards one end close to the inner peripheral bracket 18 when the second construction platform 33 is swayed left and right, the maximum formation can be achieved when the peripheral bracket 17 is completely contacted with the inner peripheral bracket 18, the second construction platform 33 is prevented from being deflected continuously, then when the second construction platform 33 is driven to a designated working area, the propeller driving system 36 can be closed, the double-shaft motor 35 is started to drive the transmission worm 37 to rotate anticlockwise, the second gear 31 can drive the transmission rack 19 to displace towards one end close to the second construction platform 33, the peripheral bracket 17 is separated from the tubular pile 9, meanwhile, the second gear 31 can drive the first gear 29 to rotate when rotating, and, the first gear 29 can drive the winding wheel 30 to rotate, thus can release the connecting rope 27, will pull the alignment clamping frame 23 to the one end position far away from winding wheel 30 through the elasticity of the second spring 25, until the winding wheel 30 releases the connecting rope 27 completely, the alignment clamping frame 23 is snapped on the outer ring surface of the tubular pile 9, thus can limit the second construction platform 33 between tubular piles 9, when the connection base plate 26 is displaced, slip in the clamping groove inside the top end of the second construction platform 33 through the clamping key at the bottom end of the connection base plate 26, make it possible to guarantee that the alignment clamping frame 23 moves along the straight line, promote the accuracy of butt joint of the alignment clamping frame 23 and tubular pile 9, snap on the tubular pile 9 through the alignment clamping frame 23, make sure the stable support of the second construction platform 33, then after the photovoltaic panel 7 is installed, the double-shaft motor 35 can be started again to drive the transmission worm 37 to rotate clockwise, so that the second gear 31 can drive the transmission rack 19 to displace towards one end far away from the second construction platform 33 again until the peripheral support 17 is contacted with the pipe pile 9 again, the second construction platform 33 is guaranteed to move along a straight line, meanwhile, the second gear 31 can drive the first gear 29 to rotate again, the winding wheel 30 can pull the connecting rope 27 to drive the alignment clamping frame 23 to be separated from the pipe pile 9, the second construction platform 33 can be convenient to continuously advance towards the front end, the screw driving system 36 is positioned below the second construction platform 33, the screw driving system 36 can be always positioned below the water surface, and the screw driving system 36 can provide power for the second construction platform 33 when being started, so that the work is completed.

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

Claims (10)

1. The photovoltaic panel comprises a tubular pile (9) and is characterized in that a truss (10) is arranged at the top end of the tubular pile (9), and a photovoltaic panel (7) is fixedly arranged at the top end of the truss (10).

2. The supporting leg type special construction platform for the fixed support is characterized in that an crane (11) is symmetrically arranged at the top end of the first construction platform (3), a sliding rail (4) is symmetrically arranged at the top end of the first construction platform (3) far away from the first supporting leg (1), a ship changing device (5) is arranged at the top end of the sliding rail (4), a hydraulic device (8) is arranged in the interior of the ship changing device (5), and a winch (12) is arranged at four corners of the top end of the first construction platform (3).

3. The support leg type special construction platform for the fixed support frame according to claim 2, wherein the first construction platform (3) further comprises side end devices (13) and supporting parts (14), and the side end devices (13) are slidably inserted into two sides of the top of the supporting parts (14).

4. The support leg type special construction platform for the fixed support frame according to claim 3, wherein the side end device (13) comprises a guide rod (15), a first spring (16), a peripheral support frame (17), an inner peripheral support frame (18) and a transmission rack (19), the transmission rack (19) is symmetrically and fixedly arranged on the left side of the inner peripheral support frame (18), the peripheral support frame (17) is slidably inserted into the right side of the inner peripheral support frame (18), the first spring (16) is symmetrically and fixedly arranged between the peripheral support frame (17) and the inner peripheral support frame (18), and the guide rod (15) is slidably connected with the left side of the peripheral support frame (17) through the inner peripheral support frame (18).

5. The support leg type special construction platform for the fixed support frame according to claim 4, wherein the supporting component (14) comprises an aligning device (20), a transmission device (21) and a guiding device (22), the aligning device (20) is symmetrically and fixedly arranged at two ends of the top of the guiding device (22), and the transmission device (21) is symmetrically and rotatably arranged at the centers of two ends of the guiding device (22).

6. The support leg type special construction platform for the fixed support frame of claim 5, wherein the alignment device (20) comprises an alignment clamping frame (23), a supporting vertical plate (24), a second spring (25), a connecting base plate (26), a connecting rope (27), a positioning base plate (28), a first gear (29) and a winding wheel (30), the first gear (29) is rotatably mounted on the positioning base plate (28), the winding wheel (30) is fixedly mounted at the center of the rear end of the first gear (29), the connecting rope (27) is fixedly mounted on the outer ring of the winding wheel (30), the connecting base plate (26) is fixedly mounted at one end, far away from the winding wheel (30), of the connecting rope (27), the alignment clamping frame (23) and the second spring (25) are fixedly mounted at the top and bottom of the side end, far away from the connecting base plate (27), of the connecting base plate (26), and the supporting vertical plate (24) is fixedly mounted at one end, far away from the connecting base plate (26), of the second spring (25).

7. The support leg type special construction platform for the fixed support frame according to claim 6, wherein the transmission device (21) comprises a second gear (31) and a transmission worm wheel (32), and the second gear (31) is fixedly arranged at the center of the side end of the transmission worm wheel (32).

8. The support leg type special construction platform for the fixed support frame of claim 7, wherein the guide device (22) comprises a second construction platform (33), a guide sleeve plate (34), a double-shaft motor (35), a propeller driving system (36) and a transmission worm (37), the guide sleeve plate (34) is fixedly arranged at four corners of the top end of the second construction platform (33), the double-shaft motor (35) is fixedly arranged at the centers of two ends of the second construction platform (33), the transmission worm (37) is fixedly arranged at the centers of two ends, close to the guide sleeve plate (34), of the double-shaft motor (35), and the propeller driving system (36) is symmetrically arranged at the bottom of the rear end of the second construction platform (33).

9. The support leg type special construction platform for the fixed support frame according to claim 8, wherein the inner peripheral support frame (18) is inserted into the guide sleeve plate (34) in a sliding mode, the transmission worm wheel (32) is symmetrically installed at two ends of the second construction platform (33) in a rotating mode, the transmission worm wheel (32) is meshed with the transmission worm (37), the bottom end of the supporting vertical plate (24) is connected with the top end, close to the guide sleeve plate (34), of the second construction platform (33), the positioning base plate (28) is fixedly installed at the top end, close to the double-shaft motor (35), of the second construction platform (33), the transmission rack (19) is meshed with the top end of the second gear (31), the first gear (29) is meshed with the side end of the second gear (31), and the first gear (29) is located below the transmission rack (19).

10. The support leg type special construction platform for the fixing support of claim 9, wherein clamping keys are symmetrically and fixedly arranged at the bottom end of the connecting substrate (26), clamping grooves are symmetrically formed in the top end, close to the guide sleeve plate (34), of the second construction platform (33), round grooves are formed in the center of the side end, deviating from the connecting rope (27), of the alignment clamping frame (23), and square holes are formed in the guide sleeve plate (34).