CN216401697U - Construction-convenient overwater power station floating body - Google Patents

Abstract

The utility model discloses a water power station floating body convenient to construct, which comprises a mounting plate, a buoyancy base, an angle adjusting assembly, a buoyancy pedal, a connecting assembly, a photovoltaic plate and first mounting columns, wherein the mounting plate is mounted on the top end surface of the buoyancy base through bolts, the angle adjusting assembly is arranged on one side of the top end surface of the mounting plate, two first mounting columns are symmetrically mounted on the other side of the top end surface of the mounting plate through welding, and the photovoltaic plate is mounted on the top of each first mounting column through a hinge, need not to dismantle the photovoltaic board during angle regulation, reduced workman's working strength.

Description

Construction-convenient overwater power station floating body

Technical Field

The utility model relates to the technical field of water power stations, in particular to a water power station floating body convenient to construct.

Background

Float formula photovoltaic power plant also known as power station on water, install photovoltaic power generation subassembly on the surface of water floats the body, it does not occupy the land resource to have, reduce the evaporation of water yield, it shelters from the advantage that sunshine restraines algae growth, current power station body on water, when the construction, the step of installation is very loaded down with trivial details, it is longer to lead to the time limit for a project than, consume the manpower very much, and rigid connection between the body, the photovoltaic board that leads to one side easily when the water rocks immerses in water, and simultaneously, current power station body on water, because the sunshine angle in summer and winter is different, need the staff to adjust the angle of photovoltaic board, dismantle the back with the photovoltaic board, change the bearing structure of corresponding height, workman's work load has been increased, therefore, it is very necessary to design a convenient to be under construction's power station body on water.

SUMMERY OF THE UTILITY MODEL

The overwater power station floating body convenient to construct is simple in structure and convenient to operate, the floating bodies can be quickly connected when being installed, the labor input is reduced, the installation efficiency is improved, stress can be transmitted to the adjacent floating bodies when the water body shakes, the photovoltaic panel is prevented from being immersed into water, meanwhile, the angle of the photovoltaic panel can be adjusted, the photovoltaic panel does not need to be detached when the angle is adjusted, and the working intensity of workers is reduced.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the overwater power station floating body convenient to construct comprises a mounting plate, a buoyancy base, an angle adjusting assembly, a buoyancy pedal, a connecting assembly, a photovoltaic plate and first mounting columns, wherein the mounting plate is mounted on the top end face of the buoyancy base through bolts, the angle adjusting assembly is arranged on one side of the top end face of the mounting plate, two first mounting columns are symmetrically mounted on the other side of the top end face of the mounting plate through welding, the photovoltaic plate is mounted on the tops of the first mounting columns through hinges, the buoyancy pedal is arranged on each of the two sides of the buoyancy base, the connecting assembly is arranged on one side, close to the first mounting columns, of the buoyancy base, and one side, away from the first mounting columns, of the buoyancy base is in hot melting connection with the end face of one side of the adjacent buoyancy pedal;

the angle adjusting component comprises an adjusting sleeve, a sliding plate, a sliding frame, a second mounting column, a limiting block, a toothed belt, a transmission gear, a rotating shaft support, a transmission shaft and an operating panel, wherein two adjusting sleeves are symmetrically mounted on one side of the top end face of the mounting plate, the second mounting column is mounted on the inner wall of the adjusting sleeve in a laminating mode, the top of the second mounting column is connected with the photovoltaic panel through a hinge, the toothed belt is mounted on the bottom of the side end face of the adjusting sleeve in a welding mode, the bottom end face of the toothed belt is connected with the top end face of the mounting plate in a laminating mode, the transmission gear is arranged right above the top of the toothed belt and meshed with the toothed belt, and a protection box is mounted on the top end face of the toothed belt in a welding mode.

As a further scheme of the utility model: coupling assembling includes first connecting block, second connecting block, connecting plate, locating lever, fixation nut and adjustment handle, a side end face symmetry of buoyancy base is inlayed and is installed two first connecting blocks, a side end face symmetry of buoyancy footboard is inlayed and is installed two second connecting blocks, and has the connecting plate through hinged joint between two second connecting blocks, the other end of connecting plate is pegged graft and is had the locating lever, and the both ends of locating lever are pegged graft with the first connecting block of both sides.

As a further scheme of the utility model: adjusting handle is installed through the welding to the one end outer wall of locating lever, the external screw thread has been seted up to the other end outer wall of locating lever, keeps away from adjusting handle's the outside terminal surface of first connecting block has fixing nut through the welding, and the locating lever passes through screw-thread fit with fixing nut and is connected.

As a further scheme of the utility model: a sliding plate is installed between the two adjusting sleeves through welding, a sliding frame is installed on one side of the top end face of the installing plate through welding, and the outer wall of the sliding plate is connected with the inner wall of the sliding frame in a laminating mode.

As a further scheme of the utility model: a limiting block is installed at the bottom of the end face of one side of the second installation column through welding, a limiting groove is formed in one side of the inner wall of the adjusting sleeve, and the outer wall of the limiting block is connected with the inner wall of the limiting groove in a laminating mode.

As a further scheme of the utility model: two install the transmission shaft through the welding between the drive gear, two pivot supports are installed through the welding symmetry in the top terminal surface central authorities of mounting panel, and the top plug-in connection of transmission shaft and pivot support, the operation panel is installed through the welding in the middle part of the outer wall of transmission shaft.

The utility model has the beneficial effects that: this convenient construction's power station body on water, moreover, the steam generator is simple in structure, the simple operation, when the installation, can carry out the high-speed joint with a plurality of bodies through coupling assembling, the input of manpower has been reduced, the installation effectiveness has been improved, and, when the water rocks, can transmit stress to adjacent body through coupling assembling, avoid photovoltaic board to immerse in water, and simultaneously, can adjust the angle of photovoltaic board very conveniently through angle adjusting part, need not to dismantle the photovoltaic board during angle regulation, workman's working strength has been reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the angle adjustment assembly of the present invention;

FIG. 3 is a schematic view of the internal structure of the connecting assembly of the present invention;

illustration of the drawings: 1. mounting a plate; 2. a buoyant base; 3. an angle adjustment assembly; 4. a buoyancy pedal; 5. a connecting assembly; 6. a photovoltaic panel; 7. a first mounting post; 31. an adjustment sleeve; 32. a sliding plate; 33. a carriage; 34. a second mounting post; 35. a limiting block; 36. a toothed belt; 37. a transmission gear; 38. a rotating shaft bracket; 39. a drive shaft; 310. an operation panel; 51. a first connection block; 52. a second connecting block; 53. a connecting plate; 54. positioning a rod; 55. fixing a nut; 56. and adjusting the handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Specific examples are given below.

Referring to fig. 1-3, a floating body of a conveniently constructed water power station comprises a mounting plate 1, a buoyancy base 2, an angle adjusting component 3, buoyancy pedals 4, a connecting component 5, a photovoltaic panel 6 and first mounting columns 7, wherein the mounting plate 1 is mounted on the top end surface of the buoyancy base 2 through bolts, the angle adjusting component 3 is arranged on one side of the top end surface of the mounting plate 1, two first mounting columns 7 are symmetrically mounted on the other side of the top end surface of the mounting plate 1 through welding, the photovoltaic panel 6 is mounted on the tops of the first mounting columns 7 through hinges, the buoyancy pedals 4 are arranged on two sides of the buoyancy base 2, the connecting component 5 is arranged on one side of the buoyancy base 2 close to the first mounting column 7, and one side of the buoyancy base 2 far away from the first mounting column 7 is in hot melt connection with one side end surface of the adjacent buoyancy pedal 4;

the angle adjusting assembly 3 comprises an adjusting sleeve 31, a sliding plate 32, a sliding frame 33, a second mounting column 34, a limiting block 35, a toothed belt 36, a transmission gear 37, a rotating shaft support 38, a transmission shaft 39 and an operating panel 310, wherein two adjusting sleeves 31 are symmetrically mounted on one side of the top end surface of the mounting plate 1 in an attaching manner, the second mounting column 34 is mounted on the inner wall of the adjusting sleeve 31 in an attaching manner, the top of the second mounting column 34 is connected with the photovoltaic panel 6 through a hinge, the toothed belt 36 is mounted at the bottom of one side end surface of the adjusting sleeve 31 in a welding manner, the bottom end surface of the toothed belt 36 is connected with the top end surface of the mounting plate 1 in an attaching manner, the transmission gear 37 is arranged right above the top of the toothed belt 36, the transmission gear 37 is connected with the toothed belt 36 in a meshing manner, a protective box is mounted on the top end surface of the toothed belt 36 in a welding manner, the transmission gear 37 and the toothed belt 36 are protected by the protective box, during adjustment, a worker drives the transmission gear 37 to rotate at the top of the toothed belt 36 through the operating panel 310 and the transmission shaft 39, the toothed belt 36 is driven to move, so that the adjusting sleeve 31 moves, the second mounting column 34 is attached to and slides upwards on the inner wall of the adjusting sleeve 31 under the action of the hinge, the angle of the photovoltaic panel 6 is adjusted by the moving second mounting column 34, and the function of quickly adjusting the angle of the photovoltaic panel 6 is realized; a sliding plate 32 is arranged between the two adjusting sleeves 31 through welding, a sliding frame 33 is arranged on one side of the top end face of the mounting plate 1 through welding, the outer wall of the sliding plate 32 is attached to the inner wall of the sliding frame 33, the sliding plate 32 is attached to and slides on the inner wall of the sliding frame 33, and the effect of limiting the movement of the adjusting sleeves 31 is achieved; the bottom of one side end face of the second mounting column 34 is provided with a limiting block 35 through welding, one side of the inner wall of the adjusting sleeve 31 is provided with a limiting groove, and the outer wall of the limiting block 35 is attached and connected with the inner wall of the limiting groove; a transmission shaft 39 is arranged between the two transmission gears 37 through welding, two rotating shaft brackets 38 are symmetrically arranged in the center of the top end surface of the mounting plate 1 through welding, the transmission shaft 39 is connected with the tops of the rotating shaft brackets 38 in an inserted manner, an operating panel 310 is arranged in the middle of the outer wall of the transmission shaft 39 through welding, and during work, workers rotate the operating panel 310 to drive the transmission shaft 39 to rotate in the rotating shaft brackets 38 in a fitting manner;

the connecting assembly 5 comprises a first connecting block 51, a second connecting block 52, a connecting plate 53, a positioning rod 54, a fixing nut 55 and an adjusting handle 56, wherein two first connecting blocks 51 are symmetrically embedded and installed on one side end face of the buoyancy base 2, two second connecting blocks 52 are symmetrically embedded and installed on one side end face of the buoyancy pedal 4, the connecting plate 53 is installed between the two second connecting blocks 52 through a hinge, the positioning rod 54 is inserted into the other end of the connecting plate 53, two ends of the positioning rod 54 are inserted into the first connecting blocks 51 on two sides, during installation, the buoyancy pedal 4 is pressed close to the buoyancy base 2, the connecting plate 53 is pressed close to the first connecting blocks 51, the positioning rod 54 penetrates through the first connecting blocks 51 and the connecting plate 53, the buoyancy base 2 and the buoyancy pedal 4 are connected, and the function of quickly connecting a plurality of floating bodies is achieved; adjusting handle 56 is installed through the welding to the one end outer wall of locating lever 54, the external screw thread has been seted up to the other end outer wall of locating lever 54, the outside terminal surface of first connecting block 51 of keeping away from adjusting handle 56 installs fixation nut 55 through the welding, and locating lever 54 is connected through screw-thread fit with fixation nut 55, rotation adjusting handle 56, the one end screw in fixation nut 55's of external screw thread inside is seted up to locating lever 54, the effect of being connected first connecting block 51, second connecting block 52 and connecting plate 53 has been reached.

The working principle of the utility model is as follows: during installation, a plurality of floating bodies can be quickly connected through the connecting assembly 5, the buoyancy pedal 4 is close to the buoyancy base 2, the connecting plate 53 is close to the first connecting block 51, the positioning rod 54 penetrates through the first connecting block 51 and the connecting plate 53 by the aid of the handheld adjusting handle 56, the adjusting handle 56 is rotated, one end, provided with an external thread, of the positioning rod 54 is screwed into the fixing nut 55, the effect of connecting the first connecting block 51, the second connecting block 52 and the connecting plate 53 is achieved, the function of quickly connecting the plurality of floating bodies is achieved, the angle of the photovoltaic panel 6 can be conveniently adjusted through the angle adjusting assembly 3, a worker rotates the operating panel 310 to drive the transmission shaft 39 to be attached and rotated inside the rotating shaft support 38, the transmission shaft 39 drives the transmission gear 37 to rotate at the top of the toothed belt 36 to drive the toothed belt 36 to move, and the adjusting sleeve 31 is enabled to move, protect drive gear 37 and toothed belt 36 through the protection box, sliding plate 32 slides at the inner wall laminating of carriage 33, reached and carried out spacing effect to the removal of adjusting sleeve 31, second erection column 34 is under the effect of hinge, slide at the inner wall laminating of adjusting sleeve 31, stopper 35 slides at the inner wall laminating of spacing groove, it is spacing to carry out the removal of second erection column 34, prevent that second erection column 34 from droing in the removal, the second erection column 34 of removal is adjusted the angle of photovoltaic board 6, the function of carrying out quick adjustment to the angle of photovoltaic board 6 has been realized.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a construction convenience's power station body on water, its characterized in that, including mounting panel (1), buoyancy base (2), angle adjusting part (3), buoyancy footboard (4), coupling assembling (5), photovoltaic board (6) and first erection column (7), mounting panel (1) is installed through the bolt to the top terminal surface of buoyancy base (2), and is provided with angle adjusting part (3) on one side of the top terminal surface of mounting panel (1), two first erection column (7) are installed through the welding symmetry to the top terminal surface opposite side of mounting panel (1), and the top of first erection column (7) has photovoltaic board (6) through the hinge mounting, the both sides of buoyancy base (2) all are provided with buoyancy footboard (4), one side that buoyancy base (2) is close to first erection column (7) is provided with coupling assembling (5), one side that first erection column (7) was kept away from in buoyancy base (2) and the buoyancy footboard (4) of adjacent One side end surface is in hot melting connection;

the angle adjusting assembly (3) comprises adjusting sleeves (31), a sliding plate (32), a sliding frame (33), a second mounting column (34), a limiting block (35), a toothed belt (36), a transmission gear (37), a rotating shaft support (38), a transmission shaft (39) and an operating panel (310), wherein the two adjusting sleeves (31) are symmetrically attached to one side of the top end face of the mounting plate (1), the second mounting column (34) is attached to the inner wall of the adjusting sleeve (31), the top of the second mounting column (34) is connected with the photovoltaic panel (6) through a hinge, the toothed belt (36) is installed at the bottom of the end face of one side of the adjusting sleeve (31) through welding, the end face of the bottom of the toothed belt (36) is attached to the end face of the top of the mounting plate (1), the transmission gear (37) is arranged right above the top of the toothed belt (36), and the transmission gear (37) is meshed with the toothed belt (36), and a protection box is arranged on the top end surface of the toothed belt (36) through welding.

2. The construction-convenient water power station floating body according to claim 1, wherein the connecting assembly (5) comprises first connecting blocks (51), second connecting blocks (52), connecting plates (53), positioning rods (54), fixing nuts (55) and adjusting handles (56), two first connecting blocks (51) are symmetrically mounted on one side end face of the buoyancy base (2) in an embedded mode, two second connecting blocks (52) are symmetrically mounted on one side end face of the buoyancy pedal (4) in an embedded mode, the connecting plates (53) are mounted between the two second connecting blocks (52) through hinges, the positioning rods (54) are connected to the other ends of the connecting plates (53) in an inserted mode, and two ends of the positioning rods (54) are connected with the first connecting blocks (51) on two sides in an inserted mode.

3. The overwater power station floating body convenient to construct as claimed in claim 2, wherein an adjusting handle (56) is installed on the outer wall of one end of the positioning rod (54) through welding, an external thread is formed on the outer wall of the other end of the positioning rod (54), a fixing nut (55) is installed on the end face, far away from the adjusting handle (56), of the outer side of the first connecting block (51) through welding, and the positioning rod (54) is connected with the fixing nut (55) in a threaded fit mode.

4. The construction-convenient water power station floating body as claimed in claim 1, wherein a sliding plate (32) is installed between the two adjusting sleeves (31) through welding, a sliding frame (33) is installed on one side of the top end face of the installing plate (1) through welding, and the outer wall of the sliding plate (32) is attached to the inner wall of the sliding frame (33).

5. The overwater power station floating body convenient to construct according to claim 1, wherein a limiting block (35) is installed at the bottom of one side end face of the second installation column (34) through welding, a limiting groove is formed in one side of the inner wall of the adjusting sleeve (31), and the outer wall of the limiting block (35) is connected with the inner wall of the limiting groove in a fitting mode.

6. The overwater power station floating body convenient to construct according to claim 1, wherein a transmission shaft (39) is installed between the two transmission gears (37) through welding, two rotating shaft supports (38) are symmetrically installed in the center of the top end face of the installation plate (1) through welding, the transmission shaft (39) is connected with the tops of the rotating shaft supports (38) in an inserted mode, and an operation plate (310) is installed in the middle of the outer wall of the transmission shaft (39) through welding.

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