CN210592335U - Photovoltaic flotation pontoon anchorage installation construction equipment on water - Google Patents

Abstract

The utility model relates to a photovoltaic buoy fixing anchor installation and construction device on water, which comprises two transport ships, ship fixing rods, a front operating platform, a rear operating platform, a portal frame, an electric hoist, a generator, a buoyancy lifting device and a movable supporting rod, wherein the two transport ships are arranged side by side, a plurality of ship fixing rods are respectively connected with the two transport ships to ensure that the two transport ships can synchronously move forwards and backwards, the front operation platform is laid between the bow of two transport ships, the rear operation platform is laid between the stern of the two transport ships, the portal frame is arranged between the front operation platform and the rear operation platform of the two transport ships, the electric hoist is connected to a hook in the middle of the portal frame, the generator is arranged on one transport ship, the generator is connected with a driving mechanism of the electric hoist through a conducting wire, the buoyancy lifting devices are respectively arranged at the bottoms of the front operation platform and the rear operation platform, and the movable supporting rod is arranged below the portal frame and is simultaneously supported by the two transport ships.

Description

Photovoltaic flotation pontoon anchorage installation construction equipment on water

Technical Field

The utility model belongs to the technical field of the photovoltaic erection equipment, in particular to photovoltaic flotation pontoon deadman installation construction equipment on water.

Background

The photovoltaic on water consists of a floating type buoy bracket system, a buoy fixing anchor, a component and an electrical part. The floating cylinder fixing anchor (called as the fixing anchor for short) is the only fixing point of the floating type bracket component square matrix on the water surface, and the installation progress and precision of the fixing anchor directly influence the installation progress and precision of the bracket component and the protection of finished products. The existing installation technology of the overwater photovoltaic fixing anchor adopts a large-scale modified ferry to combine with a transport ship to carry out the installation and construction of the fixing anchor, and the device has obvious construction effect in deep water and open water areas, but has the following defects: 1. the construction of the refitted ferry needs a large working surface, and the construction cannot be carried out in shallow water areas, long and narrow water channels and low overhead line pole water areas on the water surface; 2. when the project construction period is tight, the fixed anchor installation and the support component installation are carried out simultaneously, the available water surface is reduced along with the increase of the installation matrixes, and if the modified ferry construction is adopted, the construction progress is slow or even the construction cannot be carried out; 3. the large-scale modified ferry has poor flexibility, is easy to collide with a square matrix, is not beneficial to the finished product protection of the support component, and has low installation efficiency and high construction cost.

Disclosure of Invention

The utility model aims at the defect that above-mentioned prior art exists, provide a simple structure, easy and simple to handle, the flexibility is strong, be applicable to the photovoltaic flotation pontoon anchorage installation construction equipment on water in various waters.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: a photovoltaic buoy fixed anchor installation construction device on water comprises two transport ships, ship fixing rods, a front operation platform, a rear operation platform, a portal frame, an electric hoist, a generator, a buoyancy lifting device and a movable supporting rod, wherein the two transport ships are arranged side by side, a distance is reserved between the two transport ships, a plurality of ship fixing rods are respectively connected with the two transport ships so that the two transport ships can synchronously move forwards and backwards, the front operation platform is laid between the ship heads of the two transport ships, the rear operation platform is laid between the stern parts of the two transport ships, the portal frame is arranged between the front operation platform and the rear operation platform of the two transport ships, the bottom ends of the portal frame are respectively and fixedly connected with the two transport ships, the electric hoist is connected to a hook in the middle of the portal frame, the generator is arranged on one transport ship, and the generator is connected with a driving mechanism of the electric hoist through a conducting wire, the buoyancy lifting devices are respectively arranged at the bottom of the front operating platform and the bottom of the rear operating platform, and the movable supporting rods are arranged below the portal frame and are simultaneously supported by two transport ships.

The utility model discloses a further technical scheme is: two ends of each ship fixing rod are fixedly connected with two transport ships in a welding mode respectively, and the adjacent ship fixing rods are arranged in parallel.

The utility model discloses a further technical scheme is: the front operating platform is laid above the ship fixing rod between the bow parts of the two transport ships, and the rear operating platform is laid above the ship fixing rod between the stern parts of the two transport ships.

The utility model discloses a further technical scheme is: the door-shaped frame comprises a bottom rod, vertical rods, a cross rod and inclined struts, wherein the two ends of the bottom rod are fixedly connected with two transport ships respectively, the two vertical rods are perpendicularly connected to the upper sides of the two ends of the bottom rod, the cross rod is connected between the top ends of the two vertical rods, the inclined struts are connected between the cross rod and the two vertical rods respectively, and the hook is connected to the middle of the cross rod.

The utility model discloses a further technical scheme is: buoyancy lifting device includes a plurality of waste oil barrels, mount pole setting, mount crosspiece, mount depression bar, and a plurality of waste oil barrels set up side by side, and the mount pole setting is connected perpendicularly between adjacent waste oil barrel, and the mount pole setting upper end upwards extends and is connected with preceding operation platform or back operation platform bottom surface, and the mount crosspiece is connected perpendicularly and is set up the preceding tip and the back tip of waste oil barrel side by side, and the mount depression bar is connected perpendicularly at the axial surface of waste oil barrel.

The utility model discloses photovoltaic flotation pontoon anchorage installation construction equipment on water has following beneficial effect:

1. good economical efficiency: compared with a large-scale modified ferry anchor handling ship, the utility model has the advantages of low manufacturing cost and strong maneuverability, greatly reduces the construction cost and shortens the construction period;

2. the installation quality is good: the device of the utility model has strong flexibility, double power ensures that the ship can be positioned at fixed points on water, effectively overcomes the deviation problem caused by anchor putting of a large refitted ferry, and avoids rework;

3. the influence of construction waters is small: the device is all used for construction in deep water, shallow water and narrow water areas, and effectively overcomes the limitation that the large-scale modified ferry anchor placing depends on a large-area working surface;

4. the operation is simple and easy to learn; the driver of a common ship can operate the device, and the hoisting operation by using the electric hoist is simple and portable.

The utility model discloses photovoltaic flotation pontoon anchorage installation construction equipment on water is further explained below with the embodiment in the combination of the attached drawing.

Drawings

FIG. 1 is a front view of the installation and construction device of the overwater photovoltaic buoy fixing anchor of the utility model;

FIG. 2 is a left side view of the installation and construction device of the overwater photovoltaic buoy fixing anchor of the utility model;

FIG. 3 is a top view of the installation and construction device of the overwater photovoltaic buoy fixing anchor of the utility model;

FIG. 4 is a front view of the gantry;

FIG. 5 is a left side view of the gantry;

FIG. 6 is an elevation view of the buoyant lift apparatus;

FIG. 7 is a left side view of the buoyant lift apparatus;

the reference numbers illustrate: 1-transport vessel, 2-portal frame, 21-hook, 22-cross bar, 23-diagonal brace, 24-vertical bar, 25-bottom bar, 3-electric block, 4-fixed anchor, 5-vessel fixed bar, 6-buoyancy lifting device, 61-fixed frame vertical bar, 62-waste oil tank, 63-fixed frame crosspiece, 64-fixed frame compression bar, 7-front operation platform, 8-generator, 9-movable support bar, 10-rear operation platform.

Detailed Description

As shown in fig. 1 to 7, the utility model discloses photovoltaic flotation pontoon anchor installation construction equipment on water, including two transport boats 1, ship dead lever 5, preceding operation platform 7, back operation platform 10, door-shaped frame 2, electric block 3, generator 8, buoyancy hoisting device 6, portable support pole 9.

The two transport ships 1 are arranged side by side, the two transport ships 1 are spaced at a certain distance, and the plurality of ship fixing rods 5 are respectively connected with the two transport ships 1 so that the two transport ships 1 can synchronously move forwards and backwards. In this embodiment, the transport ship 1 is a common boat, the length is six meters, a diesel engine is adopted to provide power, each transport ship 1 is provided with a driver, two transport ships 1 are spaced by 1.8 meters, four ship fixing rods 5 are provided, the ship fixing rods 5 are made of i-steel, two ends of each ship fixing rod 5 are respectively fixedly connected with two transport ships 1 in a welding mode, the adjacent ship fixing rods 5 are arranged in parallel, each ship fixing rod 5 and the two ships have eight welding points, the connection is firm and reliable, the two ships are combined into one after being fixed, and the power and the stability are greatly improved. Meanwhile, the two transport ships 1 are provided with front and rear gear power, so that the difficulty of driving the two transport ships 1 on water can be reduced, and the flexibility of the ships is greatly improved. The front operation platform 7 is laid between the bow of the two transport ships 1, the rear operation platform 10 is laid between the stern of the two transport ships 1, the front operation platform 7 is laid above the ship fixing rod 5 between the bow of the two transport ships 1, the rear operation platform 10 is laid above the ship fixing rod 5 between the stern of the two transport ships 1, for the convenience of operation of operators, the front operation platform 7 and the rear operation platform 10 do not affect the arrangement of the portal frame 2 and are fixed on the ship fixing rod 5, and the front operation platform 7 and the rear operation platform 10 are 1.8m long and 1.8m wide.

The portal frame 2 is arranged between the front operation platform 7 and the rear operation platform 10 of the two transport ships 1, the bottom ends of the portal frame 2 are fixedly connected with the two transport ships 1 in a welding mode respectively, the portal frame 2 comprises bottom rods 25, vertical rods 24, cross rods 22 and inclined struts 23, two ends of each bottom rod 25 are fixedly connected with the two transport ships 1 respectively, the two vertical rods 24 are perpendicularly connected to the upper sides of two ends of each bottom rod 25, the cross rods 22 are connected between the top ends of the two vertical rods 24, the inclined struts 23 are connected between the cross rods 22 and the two vertical rods 24 respectively, the hooks 21 are connected to the middle portions of the cross rods 22, and the connection between the rod pieces of the portal frame 2 is welded. The electric hoist 3 is the 3T electric hoist, and the electric hoist 3 is connected on the couple 21 at door-shaped frame 2 middle part, and generator 8 sets up the bow of one of them transport ship 1, and generator 8 passes through the conductor wire (not shown in the figure) and is connected with 3T electric hoist's actuating mechanism, and 3T electric hoist and generator 8 are supporting to be used, can improve the efficiency of construction, reduce the manual work, and the reduction of erection time reduces construction cost. The movable support bar 9 is arranged below the portal frame 2 and is simultaneously supported by two transport boats 1, and the movable support bar 9 is used for supporting the fixing anchor 4 during transportation.

The buoyancy lifting devices 6 are respectively arranged at the bottom of the front operating platform 7 and the bottom of the rear operating platform 10. Buoyancy lifting device 6 includes a plurality of waste oil barrels 62, mount pole setting 61, mount crosspiece 63, mount depression bar 64, a plurality of waste oil barrels 62 set up side by side, mount pole setting 61 is connected perpendicularly between adjacent waste oil barrel 62, and mount pole setting 61 upper end upwards extends and is connected with preceding operation platform 7 or back operation platform 10 bottom surface, mount crosspiece 63 is connected perpendicularly and is set up waste oil barrel 62's preceding tip and back tip side by side, mount depression bar 64 is connected perpendicularly at waste oil barrel 62's axial surface. The mount crosspiece 63 can prevent that waste oil bucket 62 from squinting to the fore-and-aft direction, and waste oil bucket 62 under self buoyancy, can be fine fix in mount depression bar 64 below.

During construction, firstly, the fixed anchor 4 is hoisted and placed on the movable supporting rod 9 below the portal frame 2 at the wharf, the transport ship 1 runs to a preset position, the generator 8 is started, the fixed anchor 4 is hoisted by the electric hoist 3 to a certain height, the movable supporting rod 9 is moved away, a constructor uses an RTK-GPS to perform positioning coordinate rechecking accurately and then falls down the fixed anchor 4, finally, the steel wire rope is unhooked and retracted, the generator 8 is closed, and the wharf returns to perform next fixed anchor installation.

The above embodiments are only preferred embodiments of the present invention, the structure of the present invention is not limited to the forms illustrated in the above embodiments, and any modifications, equivalent substitutions and the like made within the spirit and principle of the present invention should be included within the scope of the present invention.

Claims (5)

1. A photovoltaic buoy fixed anchor installation construction device on water is characterized by comprising two transport ships (1), ship fixing rods (5), a front operation platform (7), a rear operation platform (10), a portal frame (2), an electric hoist (3), a generator (8), a buoyancy lifting device (6) and a movable supporting rod (9), wherein the two transport ships (1) are arranged side by side, a distance is reserved between the two transport ships (1), the ship fixing rods (5) are respectively connected with the two transport ships (1) to enable the two transport ships (1) to synchronously advance and retreat, the front operation platform (7) is laid between the ship heads of the two transport ships (1), the rear operation platform (10) is laid between the ship tails of the two transport ships (1), the portal frame (2) is arranged between the front operation platform (7) and the rear operation platform (10) of the two transport ships (1), and door-shaped frame (2) bottom respectively with two ships (1) fixed connection, electric block (3) are connected on couple (21) at door-shaped frame (2) middle part, generator (8) set up on one of them ship (1), generator (8) are connected with the actuating mechanism of electric block (3) through the conductor wire, buoyancy hoisting device (6) set up respectively in preceding operation platform (7) bottom and back operation platform (10) bottom, portable bracing piece (9) set up in door-shaped frame (2) below and are supported by two ships (1) simultaneously.

2. The installation and construction device for the fixing anchor of the overwater photovoltaic buoy as claimed in claim 1, wherein two ends of each ship fixing rod (5) are fixedly connected with two transport ships (1) respectively in a welding mode, and the adjacent ship fixing rods (5) are arranged in parallel.

3. The installation and construction device for photovoltaic pontoon tie-down anchors on water as claimed in claim 2, characterized in that the front operating platform (7) is laid above the pontoon tie bars (5) between the bows of the two transport vessels (1), and the rear operating platform (10) is laid above the pontoon tie bars (5) between the stern of the two transport vessels (1).

4. The installation and construction device for the fixing anchor of the overwater photovoltaic buoy as claimed in claim 1, wherein the portal frame (2) comprises a bottom rod (25), vertical rods (24), a cross rod (22) and inclined struts (23), wherein two ends of the bottom rod (25) are respectively and fixedly connected with the two transport ships (1), the two vertical rods (24) are vertically connected to the upper sides of two ends of the bottom rod (25), the cross rod (22) is connected between the top ends of the two vertical rods (24), the inclined struts (23) are respectively connected between the cross rod (22) and the two vertical rods (24), and the hook (21) is connected to the middle part of the cross rod (22).

5. The installation and construction device of the overwater photovoltaic buoy fixed anchor as claimed in claim 1, wherein the buoyancy lifting device (6) comprises a plurality of waste oil barrels (62), a fixed frame vertical rod (61), a fixed frame cross-piece (63) and a fixed frame pressing rod (64), wherein the plurality of waste oil barrels (62) are arranged side by side, the fixed frame vertical rod (61) is vertically connected between the adjacent waste oil barrels (62), the upper end of the fixed frame vertical rod (61) extends upwards to be connected with the bottom surface of the front operating platform (7) or the rear operating platform (10), the fixed frame cross-piece (63) is vertically connected with the front end part and the rear end part of the waste oil barrels (62) which are arranged side by side, and the fixed frame pressing rod (64) is vertically connected with the axial outer surface.

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