CN221367408U - Floating box pile driving platform on water - Google Patents

Abstract

The technical scheme of the utility model provides a water buoyancy tank piling platform which comprises a floating body assembly, a positioning assembly and a piling floating body, wherein the floating body assembly comprises a piling floating body and a piling floating body, the piling floating body is detachably arranged on one side of the piling floating body, and the other side of the piling floating body is a piling area; the positioning assembly comprises a plurality of anchor cables, one ends of the anchor cables are arranged on the pile driving floating body, and the other ends of the anchor cables are anchored at corresponding positions and used for positioning the pile driving floating body at the position on water. According to the utility model, the floating body assembly is divided into the pile floating body and the pile floating body, the pile floating body and the pile floating body are connected in a detachable manner, when the pile floating body is connected, the pile floating body can be driven to move along, the pile floating body is convenient for a pile driver to take a pile, when the pile floating body is detached, the pile floating body filled with the pile is required to be supplemented, the pile floating body filled with the pile is directly replaced with the empty pile floating body, the pile floating body is convenient for being supplied to the upper pile in time, and the efficiency of water pile construction is ensured.

Description

Floating box pile driving platform on water

Technical Field

The utility model relates to the technical field of photovoltaic construction, in particular to a piling platform for an overwater buoyancy tank.

Background

The construction and installation of the photovoltaic part comprises: PHC presets tubular pile construction, solar cell support manufacturing installation, and building installation engineering of building structures such as box transformer substation. Cable laying, photovoltaic matrix installation, electrical equipment installation and debugging, and grid-connected operation and debugging of the system. Firstly, constructing, manufacturing and installing a photovoltaic bracket foundation; then carrying out civil engineering construction of the box transformer substation and other building structures; and finally, installing and debugging the photovoltaic square matrix and installing and debugging the electric instrument equipment.

In PHC preset tubular pile construction, because the topography is more complicated in the photovoltaic field, not only have land, but also pond lake, to the construction requirement of on-the-spot tubular pile, need to formulate water and land pile foundation construction scheme to different regions. Pile driving on land is usually performed directly by a pile driver. And pond and lake pile driving on water is inapplicable due to the pile driving related to the water environment. Moreover, because of the wading environment, the pile stacking space of the water platform is limited, the pile needs to be supplied and supplemented along with the pile driving position in construction, the construction efficiency can be influenced due to the excessively long time for supplying and supplementing, and the technical problem that needs to be solved is how to form a movable pile driving platform on water for timely pile driving in order to ensure the construction efficiency.

Disclosure of utility model

In view of the foregoing, it is necessary to provide a water buoyancy tank pile driving platform, which solves the technical problem of how to form a pile on water for supplying a timely movable pile driving platform in the prior art.

In order to achieve the technical purpose, the technical scheme of the utility model provides a water buoyancy tank piling platform, which comprises the following components:

The floating body assembly comprises a piling floating body and a piling floating body, the piling floating body is detachably arranged on one side of the piling floating body, and the other side of the piling floating body is a piling area;

The positioning assembly comprises a plurality of anchor cables, one ends of the anchor cables are arranged on the pile driving floating body, and the other ends of the anchor cables are anchored at corresponding positions and used for positioning the pile driving floating body at the position on water; and

And the pile driver is erected on the top of the pile driving floating body.

Further, one end of each anchor cable is arranged on the piling floating body through a winch, the winch is used for winding and unwinding the anchor cable, and the pair of the winches are symmetrically distributed on two sides of the piling machine.

Further, the pile driving device also comprises a pile transportation driving piece which is detachably connected to the pile floating body and used for driving the pile floating body to move or driving the pile floating body and the pile floating body to move together.

Further, a plurality of hook rings are arranged on the pile floating bodies, and hooks are arranged on the pile floating bodies correspondingly and are used for hooking the hook rings.

Further, the number of the hooks is at least two.

Further, the top of the pile floating body is provided with a plurality of sleepers, the sleepers are provided with embedded grooves, and wood wedges are inserted into the embedded grooves.

Further, the piling floating body comprises a plurality of buoyancy tanks which are connected with each other.

Further, pile body includes a plurality of interconnect's flotation pontoon, be provided with the plate body between the top of flotation pontoon.

Further, the pipe pile transportation driving piece is a diesel engine propeller, and the diesel engine propeller is arranged on one side of the pile floating body.

Further, the pipe pile transportation driving piece is a tug, a hook rope is arranged at the tail end of the tug, and the hook rope is hooked on the pile floating body.

Compared with the prior art, the utility model has the beneficial effects that: the pile floating body is characterized in that the floating body assembly is divided into a pile floating body and a pile floating body, a pile driver is arranged on the pile floating body to pile, the pile floating body is stacked with a pipe pile, the pile floating body and the pile floating body are connected in a detachable mode, when the pile floating body is connected, the pile floating body can be driven to move along with the pile floating body, the pile driver is convenient to take a pile, when the pile is detached, the pipe pile is required to be supplemented, the pile floating body filled with the pipe pile is directly replaced with the empty pile floating body, the pipe pile is convenient to be supplied in time, and the efficiency of water pile construction is guaranteed.

Drawings

FIG. 1 is a schematic structural view of a buoyancy tank pile driver platform according to an embodiment of the present utility model;

FIG. 2 is a top view of the construction of a floating box pile driver platform according to an embodiment of the present utility model;

FIG. 3 is a structural three-dimensional view of a float assembly according to an embodiment of the present utility model;

Fig. 4 is a top view of a tubular pile transport driver according to an embodiment of the present utility model;

Fig. 5 is another top view of a tubular pile transport driver according to an embodiment of the present utility model;

In the figure: 1. a float assembly; 11. piling a floating body; 1101. a buoyancy tank; 12. piling up a pile floating body; 121. a floating barrel; 122. a plate body; 1201. hooking rings; 1202. a hook; 1203. a sleeper; 1204. a wooden wedge;

2. A positioning assembly; 21. an anchor cable; 22. a hoist; 23. reinforcing ropes;

3. a pile driver;

4. a tubular pile transport driving member; 401. a diesel engine propeller; 402. towing a boat;

5. A tubular pile;

Detailed Description

The following detailed description of preferred embodiments of the utility model is made in connection with the accompanying drawings, which form a part hereof, and together with the description of the embodiments of the utility model, are used to explain the principles of the utility model and are not intended to limit the scope of the utility model.

As shown in fig. 1-5, the utility model provides an overwater buoyancy tank pile driving platform, which comprises a floating body assembly 1, a positioning assembly 2 and a pile driver 3, wherein the floating body assembly 1 comprises a pile driving floating body 11 and a pile driving floating body 12, the pile driver 3 is erected on the top of the pile driving floating body 11 and is used for driving piles, tubular piles are piled on the pile driving floating body 12, the pile driving floating body 12 is detachably arranged on one side of the pile driving floating body 11, the other side of the pile driving floating body 11 is a pile driving area, the pile driving area on one side is formed, the pile driving area on the other side is distributed, the pile driving area on one side is transferred to the pile driving area on the other side by the pile driver 3, and the pile driving areas are not interfered with each other. In order to timely supplement the pipe piles for piling, after the pile floating body 12 and the pile floating body 11 are detached, a pile floating body 12 full of the pipe piles is reserved for waiting, the pile floating body 12 is hovered beside the pile floating body 12 in use, the pile floating body 12 waiting for waiting is directly replaced with the used pile floating body 12, the effect of rapidly supplying the pipe piles is achieved, repeated carrying and transferring are avoided, the replaced pile floating body 12 is transported to re-fill the pipe piles in the piling process, and is transported beside the pile floating body 12 for waiting for next replacement, time consumption caused by pile interruption is prevented, and piling efficiency is maintained. Moreover, as the pile floating body 11 and the pile floating body 12 can be in a connection state, in the connection state, the pile floating body 11 can be moved to drive the pile floating body 12 to synchronously move, so that the pile floating body 12 is prevented from being independently moved and driven, and additional transportation equipment is required for carrying out following transportation, so that the pile floating body can synchronously move along with the pile driving position, and the transportation and pile driving integration is formed.

Wherein, the pile driver 3 can adopt a high-frequency vibration pile driver with the model number of PC200-300, and the pile driving floating body 11 floats on the water surface to support the pile driver 3. In addition, for effective support of the pile driver 3, the pile-driving floating body 11 comprises a plurality of interconnected buoyancy tanks 1101, and the external shape length of a single buoyancy tank can be defined as: 6m x 2.4m x 1.2m, six buoyancy tanks 1101 of this size are used to form a large floating body. In order to ensure the overall stability of the buoyancy tank and the rigidity between the floating bodies, the strength and rigidity of the connecting piece and the reliability of the connection of the floating body members are ensured. The connection method comprises the following steps: longitudinal joint: and (3) the following steps: overlapping the single pin; the following steps: and (5) hooking. And (3) transverse joint: and (3) the following steps: overlapping the single pin; the following steps: and (5) hooking. The dead weight of the single buoyancy tank 1101 is about 3.3t, the single tank bearing capacity is 90KN, the force is equivalent to 9.8t, and 1 floating body consisting of 6 buoyancy tanks is equivalent to the buoyancy of 6 x 9.8=58.8 t. The self weight of 1 PC200-300 high-frequency vibration pile driver is 21-32t, and the pile construction requirement can be met by calculating from buoyancy.

In this embodiment, in order to position the floating body assembly 1, the positioning assembly 2 includes a plurality of anchor cables 21, one ends of the anchor cables 21 are disposed on the floating body 11, and the other ends of the anchor cables are anchored at corresponding positions for positioning the floating body 11 on water, where the anchor cables 21 may be anchored at a shore, or may be piled on a lake or a pond, or may be anchored on piles, or may be anchored on other floating bodies, so as to form the positioning of the floating body assembly 1.

Further, in order to enable the floating body assembly 1 to move in the longitudinal direction of the array during anchoring, one end of each of the pair of anchor ropes 21 is arranged on the corresponding pile driving floating body 11 through a winch 22, the winch 22 is arranged on the pile driving floating body 11, at least 3T of winches 22 are selected, the winches 22 are used for corresponding retraction of the anchor ropes 21, the pair of winches 22 are symmetrically distributed on two sides of the pile driver 3, specifically, the front side and the rear side of the pile driver 3, the anchor ropes 21 are selected to be parallel to the upper surface of the pile driving floating body 11, the pile driving floating body 11 can be pulled to move in the longitudinal direction through the retraction of the winches 22, and the pile driving floating body 12 is connected with the pile driving floating body 11 to follow the movement.

Further, in order to move the floating body assembly 1 in the transverse direction of the array, the pile transporting driving member 4 is detachably connected to the pile floating body 12 and is used for driving the pile floating body 12 to move or driving the pile floating body 11 and the pile floating body 12 to move together, and under the driving, the pile floating body 12 is driven to move in the transverse direction, so that the pile floating body 11 can be driven to move in the transverse direction.

It will be appreciated that the pipe piles are piled in an array in water, the pile floats 11 are positioned under the control of the measuring instrument, the anchor cables 21 are anchored and are tightened by the windlass 22, the windlass 22 is controlled to retract and release the anchor cables 21, the pile floats 11 are moved, after one column of piles is piled, the anchoring is released, the pile transport driving member 4 is used for moving the float assembly 1 to the corresponding position, the anchoring is carried out again, and the pile is piled along the longitudinal direction.

Furthermore, in order to improve the stability of the pile driving floating body 11, four reinforcing ropes 23 may be led out at four corners of the pile driving floating body 11 to further anchor the pile driving floating body, but the pile driving floating body needs to be manually used in a weather environment with large water surface fluctuation.

In this embodiment, in order to facilitate connection between the pile floating body 12 and the pile floating body 11 and facilitate movement of the pile floating body 12, a plurality of hook rings 1201 are provided on the pile floating body 12, and hooks 1202 are provided on the pile floating body 11 corresponding to the pile floating body for hooking on the hook rings 1201, the hooks 1202 are connected with the pile floating body 11 by a chain, and the hook rings 1201 are respectively provided with two on four sides of the pile floating body 12 to provide stability during connection.

The number of hooks 1202 is at least two, and the two hooks 1202 are respectively hooked to the two hook rings 1201 on the corresponding surface, so that the stability of connection is improved.

It will be appreciated that in order to enable the pile float 12 to be flush with and reduce gaps when connected to the pile float 11, and reduce collisions that can occur between the hook ring 1201 and the pile float 11, the pile float 12 is provided with an open slot at its top, the hook ring 1201 is built into the open slot, and the length of the hook ring 1201 is less than that of the open slot, thereby protecting the hook ring 1201 therein, while the outer edge of the pile float 12 can be bonded to the outer edge of the pile float 11, and the hook ring 1201 does not collide with the pile float 11.

In this embodiment, in order to be convenient for transport the tubular pile to provide the stability of tubular pile on pile body 12, pile body 12's top is provided with a plurality of sleeper 1203, and sleeper 1203 fills up in the bottom of tubular pile, the transport of tubular pile of being convenient for, set up the embedded groove on the sleeper 1203, the inserts wooden wedge 1204 in the embedded groove, wooden wedge 1204 bottom is provided with the inserted block, inserts in the embedded groove, and wooden wedge 1204 body then laminates to pile body outside, carries out the position restriction of tubular pile, promotes the stability when transporting.

In this embodiment, alternatively, the pile floating body 12 includes a plurality of floating barrels 121 that are connected to each other, a plate 122 is disposed between the tops of the floating barrels 121, the floating barrels 121 may be a gasoline barrel floating body, which is easy to obtain, a plurality of extension frames are welded at the bottoms of the plate 122, and the pile floating body 12 is formed by erecting the pile floating body on a floating body formed by the floating barrels 121.

It will be appreciated that the pile floats 12 may also take the form of buoyancy tanks, selected according to actual cost requirements.

In this embodiment, alternatively, the pipe pile transportation driving member 4 is a diesel engine propeller 401, where the diesel engine propeller 401 is disposed on one side of the pile floating body 12, and is directly fixedly mounted on the pile floating body 12 through a fixing member such as a bolt to drive the pile floating body to move, and the pile floating body 12 can independently and automatically move, so that the handling is convenient, but when there are multiple pile floating bodies 12, multiple diesel engine propellers 401 are required, and the cost is high.

In this embodiment, the pipe pile transporting driving member 4 is a tug boat 402, the tail end of the tug boat 402 is provided with a hook cable, the hook cable is hooked on the pile floating body 12, and the tug boat 402 needs to repeatedly hook the hook cable, but in a plurality of pile floating bodies 12, alternate driving can be performed, so that the cost is low.

It will be appreciated that the selection of tugs 402 or diesel propellers 401 may be made depending on the actual construction situation, as well as the number and cost budget of pile floats 12.

The specific working procedure of the utility model is as follows: the pile floating body 12 moves to a measuring position, anchors by anchor cables on the windlass 22, is retracted for position adjustment and locking, piles are driven at corresponding positions by the pile drivers 3, the pile floating body 12 is retracted and retracted by two windlass 22, is retracted at one side and is retracted at the other side for longitudinal movement for piling the longitudinally distributed pipe piles, and the pile floating body 12 always follows the pile floating body 11; when the pipe pile needs to be supplied, the hooks 1202 and the hook rings 1201 are detached, the pile floating body 12 which is used up for the pipe pile is removed, the pile floating body 12 which is fully piled up with the pipe pile is directly replaced, and the pipe pile is timely supplied; when the floating body assembly 1 needs to be transversely moved, the pile floating body 12 is driven by the pile transportation driving piece 4, and the pile floating body 11 is driven to move together.

The entire workflow is completed and what is not described in detail in this specification is well known to those skilled in the art.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. An aquatic buoyancy tank pile driving platform, comprising:

The floating body assembly comprises a piling floating body and a piling floating body, the piling floating body is detachably arranged on one side of the piling floating body, and the other side of the piling floating body is a piling area;

The positioning assembly comprises a plurality of anchor cables, one ends of the anchor cables are arranged on the pile driving floating body, and the other ends of the anchor cables are anchored at corresponding positions and used for positioning the pile driving floating body at the position on water; and

And the pile driver is erected on the top of the pile driving floating body.

2. The floating box pile driving platform according to claim 1, wherein one end of a pair of anchor cables is arranged on the pile driving floating body through a winch, the winch is used for winding and unwinding the anchor cables, and the pair of winches are symmetrically distributed on two sides of the pile driver.

3. A water buoyancy tank pile driving platform according to claim 2 further comprising a pipe pile transport driver detachably connected to the pile buoy for driving the pile buoy to move or driving the pile buoy and pile buoy to move together.

4. A water buoyancy tank piling platform according to claim 3, wherein the piling floating body is provided with a plurality of hook rings, and the corresponding piling floating body is provided with hooks for hooking on the hook rings.

5. A buoyancy tank pile deck according to claim 4, wherein the number of hooks is at least two.

6. The floating box pile driving platform according to claim 5, wherein the pile floating body has a plurality of sleepers at the top, the sleepers are provided with embedded grooves, and wood wedges are inserted into the embedded grooves.

7. The floating box pile driving platform according to claim 6, wherein said pile driving float comprises a plurality of interconnected floating boxes.

8. The water pontoon pile driving platform of claim 7, wherein the pile floating body comprises a plurality of interconnected pontoons, and a plate is disposed between tops of the pontoons.

9. The floating box pile driving platform according to claim 8, wherein the pipe pile transport driving member is a diesel engine propeller, and the diesel engine propeller is arranged at one side of the pile floating body.

10. A water buoyancy tank pile driving platform according to claim 8 wherein the pipe pile transport driver is a tug, the tail end of the tug being provided with a hook cable which hooks onto the pile buoy.