CN215593947U - Multifunctional water platform capable of moving integrally - Google Patents

Abstract

The utility model belongs to the technical field of water operation platforms, in particular to a multifunctional water platform capable of moving integrally; the device comprises a load floating body arranged at left and right intervals, wherein an operation platform is erected on the load floating body, a plurality of underground flowering pile machines are arranged on the side edge of the operation platform, which is provided with the load floating body, at intervals, and each underground flowering pile machine is driven by a transmission mechanism to insert and pull piles; the utility model has the advantages of simple structure, convenient use, low technical requirements for manufacturing and installation, good practicability, strong reliability, low cost, high benefit, simple operation, low technical requirements and high automation degree.

Description

Multifunctional water platform capable of moving integrally

The technical field is as follows:

the utility model belongs to the technical field of water operation platforms, and particularly relates to a multifunctional water platform capable of moving integrally.

Background art:

modern overwater operation platforms can be classified into three major types, namely fixed type, movable type and semi-fixed type according to structural characteristics and working states of the modern overwater operation platform. The lower part of the fixed platform is directly supported and fixed on the water bottom by piles, enlarged footing or other structures, and the fixed platform is divided into a pile foundation type and a gravity type according to the supporting condition. Fixed platform can not direct used repeatedly after using, needs to cut it, transport to next operation region again after dismantling, builds again, and work load is big, inefficiency.

The utility model content is as follows:

the utility model aims to provide a multifunctional water platform capable of being integrally moved without cutting and disassembling.

The utility model is realized by the following steps:

the utility model provides a multi-functional platform on water that shifts wholly, includes the load body that controls the interval and set up, is equipped with the work platform on the load body, and the side interval that is provided with the load body on the work platform is provided with a plurality of underground pile machines that bloom, and every underground pile machine that bloom is driven by drive mechanism and is inserted the stake, pulls out the stake.

In foretell multi-functional whole platform on water that shifts, underground flowering pile machine includes stake core and the suit pile cover outside the stake core, the lower extreme of stake core stretches out outside the pile cover and is provided with the stake point, the one end circumference that is close to the stake point on the pile cover is provided with a plurality of pull rod seat chutes that set up along upper and lower direction, is provided with the pull rod seat corresponding with pull rod seat chute quantity, position on the stake core, every pull rod seat can reciprocate in the pull rod seat chute that corresponds, it has the blossoming pile board to articulate at the lower extreme of stake cover, the blossoming pile board passes through the pull rod and is connected with the pull rod seat, the blossoming pile board passes through the elevating movement of stake core in the pile cover and opens and close, the stake core is gone up and down by actuating mechanism drive.

In the above-mentioned multifunctional integrally-shifted water platform, the transmission mechanism is a chain transmission mechanism or a wire rope transmission mechanism, and includes a first chain or a first wire rope, a second chain or a second wire rope, which are located at two sides of the underground flowering pile machine, an upper pile inserting and pulling fixing seat and a lower pile inserting and pulling fixing seat are both arranged at two sides of the pile sleeve, a first driving wheel and a second driving wheel are respectively arranged on the upper pile inserting and pulling fixing seat and the lower pile inserting and pulling fixing seat, an installation seat is arranged on the operation platform between the upper pile inserting and pulling fixing seat and the lower pile inserting and pulling fixing seat, an auxiliary wheel fixing seat is arranged on the installation seat, a third driving wheel, a fourth driving wheel, a fifth driving wheel and a sixth driving wheel are arranged on the auxiliary wheel fixing seat in a rotating manner, the driving wheel shaft is driven to rotate by a motor, a first driving wheel is arranged on the driving wheel shaft, a second driving wheel is arranged on the second driving wheel shaft, a second driving wheel is arranged on the second driving wheel, a second driving wheel is arranged on a second driving wheel, a second driving wheel is arranged on a second driving wheel, a third driving wheel, a second driving wheel, a third driving wheel is arranged on a third driving wheel, a third driving wheel, a third driving wheel, a third, And the axes of the first driving wheel, the second driving wheel, the third driving wheel and the fourth driving wheel are vertical to the axes of the first driving wheel, the second driving wheel, the fifth driving wheel and the sixth driving wheel, one end of a first chain or a first steel wire rope and one end of a second chain or a second steel wire rope are respectively and fixedly arranged on the upper pile inserting and pulling fixing seat, and the lower end of the first chain or the first steel wire rope sequentially bypasses the fifth driving wheel, the first driving wheel, the third driving wheel, the first driving wheel or the second driving wheel, the fourth driving wheel, the second driving wheel and the sixth driving wheel and is fixedly arranged on the lower pile inserting and pulling fixing seat.

In the above multifunctional integrally-shifted water platform, the mounting seat comprises a main mounting seat and a bottom plate hinged on the main mounting seat, the auxiliary wheel fixing seat is fixedly arranged on the bottom plate, and the bottom plate rotates around the hinged position to enable the underground flowering pile to be laid on the operation platform.

In the above multifunctional integrally-displaced water platform, the driving wheel shaft is connected with an output shaft of a first gear box, an input shaft of the first gear box is connected with an output shaft of a second gear box through a chain transmission mechanism, and an input shaft of the second gear box is connected with a motor and driven to rotate by a driving motor.

In foretell platform on water of multi-functional whole aversion, drive mechanism is gear drive, including setting up the driving gear in pile cover both sides, the driving gear sets up along pile cover length direction, the driving gear respectively with first gear, second gear meshing transmission, first gear, second gear are rotated by driving gear, driven gear drive respectively, and driving gear, driven gear meshing transmission, the driving gear is rotated by the power supply drive.

In foretell platform on water of multi-functional whole aversion, actuating mechanism includes elevator motor, and elevator motor passes through the lead screw and is connected with the stake core, and elevator motor drive lead screw clockwise or anticlockwise rotates and then drives the lift of stake core.

In foretell platform on water of multi-functional whole aversion, be provided with the mounting panel at the top of pile cover, be provided with the riser on the mounting panel of elevator motor's both sides respectively, be provided with the guide way of L shape on the riser, including horizontal groove and vertical groove, be provided with the locking sensor on the riser corresponding to horizontal groove, be provided with the unblock sensor on the riser corresponding to the lower extreme of vertical groove, be provided with the playback sensor on the riser corresponding to the upper end of vertical groove, be provided with the screw along with elevator motor action on elevator motor, the screw removes in the guide way.

In foretell multi-functional whole platform that shifts on water, the interval is provided with a plurality of spouts that constitute by the setting of section bar along vertical direction on the side that the work platform is provided with the load body, and the stake machine of flowers underground is equipped with to the cunning inslot, is provided with the slider along vertical direction on the section bar, and during the pile pulling, lower plug stake fixing base acts on the lower extreme drive slider upward movement of slider, is provided with on the section bar of slider top and is used for responding to the pile pulling limit switch that targets in place.

In the above multifunctional integrally-displaced water platform, the operation platform comprises a platform frame assembly and a platform panel arranged on the platform frame assembly in a segmented manner.

In the above multifunctional integrally-displaced water platform, one end or two ends of the operation platform are provided with the connection springboard, the connection springboard is hinged with the operation platform, and the connection springboard is driven to be unfolded or folded by the lifting device.

In the above multifunctional integrally-displaced water platform, the connection gangboard comprises a gangboard frame and a platform panel arranged on the gangboard frame in a segmented manner.

In the above-mentioned multi-functional water platform that shifts as a whole, its characterized in that: the operation platform is detachably connected with the load floating body.

In the above-mentioned multifunctional integrally-displaced water platform, a movable pile drilling machine workbench is arranged on the work platform.

Compared with the prior art, the utility model has the outstanding advantages that:

1. the utility model has the advantages of simple structure, convenient use, low technical requirements for manufacturing and installation, good practicability, strong reliability, low cost, high benefit, simple operation, low technical requirements and high automation degree.

2. The utility model adopts the same manpower and material resources, and can shorten the project amount which needs several years originally to the project period of several months, even shorter. When drilling and pouring are needed, any platform panel can be opened to carry out drilling and pouring or other construction operations. And the anchor machine is appointed to enter the next position according to the Beidou positioning, and if the influence of factors such as water flow or wind power and the like cannot be correctly positioned, the anchor machine can be anchored to instruct to realize correct positioning. And after the positioning is finished, the whole operation process is finished. The next flow work is started.

3. The utility model is suitable for the drilling and pouring construction operation of offshore silt geology. Because the underground flowering pile configured by the platform can be inserted into soil in a closed state, the flowering pile plate is automatically opened to a set depth, and the area of the pile bottom is increased by dozens of times at any time. The bearing capacity of the pile foundation is increased. When the pile is pulled out, the pile sleeve ascends first and the blooming pile plate can be automatically closed, so that the pile can be pulled out easily. And because of the action of the underground flowering pile, the platform can be suspended and fixed on the sea surface within dozens of minutes, the construction operation is not influenced by tide level, water flow, wind wave and the like, and the platform has the advantages of good stability, strong reliability, convenience in displacement and the like.

4. The utility model can integrate the temporary bridge and the operation platform into a whole by transverse and longitudinal connection, and can be used as a temporary wharf by shore connection.

Description of the drawings:

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

FIG. 2 is a schematic illustration of the work platform of the present invention after it has been secured by an underground flowering pile machine and with the load-carrying float removed;

FIG. 3 is one of the schematic views of the underground flowering pile machine of the present invention;

FIG. 4 is an enlarged schematic view of section A of FIG. 3;

FIG. 5 is an enlarged schematic view of section B of FIG. 3;

FIG. 6 is a second schematic view of the underground flowering pile machine of the present invention;

FIG. 7 is an enlarged schematic view of section C of FIG. 6;

FIG. 8 is an enlarged schematic view of section D of FIG. 6;

FIG. 9 is one of the schematic perspective views of the transmission mechanism of the underground flowering pile of the present invention using gear transmission;

FIG. 10 is an enlarged schematic view of section E of FIG. 9;

FIG. 11 is a second perspective view of the driving mechanism of the underground flowering pile of the present invention using gear transmission;

FIG. 12 is an enlarged schematic view of section F of FIG. 11;

FIG. 13 is a schematic illustration of the present invention in a collapsed condition of the underground flowering pile machine;

FIG. 14 is a schematic illustration of the utility model after attachment to form a temporary bridge;

FIG. 15 is a schematic view of the present invention with a mobile pile driver station;

figure 16 is a schematic illustration of a plurality of embodiments of the present invention in use in conjunction.

In the figure: 1. a load-carrying float; 2. an operation platform; 3. an underground flowering pile machine; 4. pile core; 5. pile cover; 6. pile tip; 7. a tie bar seat chute; 8. a pull rod seat; 9a, a first patterned pile plate; 9b, a second flowering pile plate; 10. a pull rod; 11. a first chain; 12. a second chain; 13. an upper plugging pile fixing seat; 14. a lower plugging pile fixing seat; 15. an auxiliary wheel fixing seat; 16. a third transmission wheel; 17. a fourth transmission wheel; 18. a fifth transmission wheel; 19. a sixth transmission wheel; 20. a driving wheel shaft; 21. a drive motor; 22. a first drive wheel; 23. a second drive wheel; 24. a first gear case; 25. a second gear box; 26. a lifting motor; 27. mounting a plate; 28. a vertical plate; 29. a vertical slot; 30. a lock sensor; 31. an unlock sensor; 32. a homing sensor; 33. a lock pin; 34. sliding iron; 35. a pile pulling in-place limit switch; 36. a platform frame assembly; 37. a platform panel; 38. connecting the springboard; 39. a first pint board; 40. a second pint board; 41. a main mounting base; 42. a base plate; 43. a mobile pile drilling machine workbench; 44. a driven gear shaft; 45. a transmission gear; 46. a first gear; 47. a second gear; 48. a driving gear; 49. a driven gear; 50. driving the gear shaft.

The specific implementation mode is as follows:

the utility model will now be further described by way of specific examples, with reference to figures 1 to 16:

the utility model provides a multi-functional platform on water that shifts wholly, includes about load body 1 that the interval set up, is equipped with work platform 2 on the upper mounting of load body 1, and the side interval that is provided with load body 1 on work platform 2 is provided with a plurality of underground pile machines 3 that bloom, and every underground pile machine 3 that bloom is driven by drive mechanism inserts the stake, pulls out the stake. The load-carrying floating body 1 of the present invention is any body capable of providing buoyancy. The load-carrying floating body 1 can be a metal box, a container, a ship, a foam floating block, a floating barrel, a floating bridge module, a floating dock unit and the like. When the load-carrying floating body 1 does not have power, the load-carrying floating body needs to be matched with a towing ship for towing. In this embodiment, the load-carrying float 1 is preferably a powered boat, which can travel by itself.

The platform can be designed and manufactured according to practical requirements of engineering, and has different sizes, specifications, shapes and configurations. If the engineering needs to be used on the horse quickly and comprehensively, a positioning system of the platforms can be utilized, each platform can find the position where the engineering design belongs to the position to be fixed in the same time, automatic pile inserting is carried out synchronously according to a set scheme, the height and the balance degree are automatically adjusted, tens of platforms, hundreds of platforms or even more can be synchronously connected at one time, and the platforms are put into use synchronously or are in place synchronously and are not connected for independent use.

The whole overwater operation platform is moved to a corresponding position through the loading floating body 1, then the underground flowering pile 3 is driven through the transmission mechanism to carry out pile inserting, and the overwater operation platform is fixed on the water surface.

Further, the underground flowering pile machine 3 comprises a pile core 4 and a pile sleeve 5 sleeved outside the pile core 4, the lower end of the pile core 4 extends out of the pile sleeve 5 and is provided with a pile toe 6, one end of the pile sleeve 5 close to the pile toe 6 is circumferentially provided with a plurality of pull rod seat chutes 7 arranged along the vertical direction, the pile core 4 is provided with pull rod seats 8 corresponding to the pull rod seat chutes 7 in number and position, each pull rod seat 8 can move up and down in the corresponding pull rod seat chute 7, the lower end of the pile sleeve 5 is hinged with a flowering pile plate, the flowering pile plate is connected with the pull rod seats 8 through pull rods 10, the flowering pile plate is opened and closed through the lifting motion of the pile core 4 in the pile sleeve 5, and in order to improve the degree of automation, the pile core 4 is driven to lift by a driving mechanism.

The pile plate of this embodiment includes a first pile plate 9a and a second pile plate 9b, the two opposite side surfaces of the pile cover 5 are respectively provided with a first pile seat plate 39 and a second pile seat plate 40, the pull rod seat 8 is located between the first pile seat plate 39 and the second pile seat plate 40, one end of the first pile plate 9a is hinged to the first pile seat plate 39, the second pile seat plate 40 and the pile cover 5 which are located on the same side, the lower ends of the pile cover 5 between the two first pile seat plates 39 and the two second pile seat plates 40 are respectively hinged to the second pile plate 9b, the first pile plate 9a and the second pile plate 9b are connected to the corresponding pull rod seats 8 through pull rods 10, the first pile plate 9a and the second pile plate 9b are opened and closed through the relative movement between the pile core 4 and the pile cover 5, and the first pile plate 9a and the second pile plate 9b are opened and closed through the relative movement between the pile core 4 and the pile cover 5, The second sheet of the flowering pile 9b forms a gapless pile bottom when opened. After the blooming pile plate is opened, the area of the pile bottom can be enlarged in time, the area of the pile bottom can be enlarged by at least dozens of times or more, the pile bottom is a gapless plane, soil cannot flow upwards, the bearing capacity is good, the blooming pile plate can be repeatedly used, the utilization rate is high, and the use cost is reduced.

As shown in fig. 3 to 8, as one embodiment of the transmission mechanism of the present invention: the transmission mechanism is a chain transmission mechanism or a steel wire rope transmission mechanism and comprises a first chain 11, a second chain 12 or a first steel wire rope and a second steel wire rope which are positioned at two sides of the underground flowering pile machine 3, wherein an upper pile plugging fixing seat 13 and a lower pile plugging fixing seat 14 are respectively arranged at two sides of the pile sleeve 5, a first transmission wheel and a second transmission wheel are respectively arranged on the upper pile plugging fixing seat 13 and the lower pile plugging fixing seat 14, a mounting seat is arranged on a working platform between the upper pile plugging fixing seat 13 and the lower pile plugging fixing seat 14, an auxiliary wheel fixing seat 15 is arranged on the mounting seat, a third transmission wheel 16, a fourth transmission wheel 17, a fifth transmission wheel 18 and a sixth transmission wheel 19 are arranged on the auxiliary wheel fixing seat 15, a driving wheel shaft 20 is rotatably arranged on the mounting seat, the driving wheel shaft 20 is driven to rotate by a driving motor 21, a first driving wheel 22, a second driving wheel 22 and a second transmission wheel 19 are arranged on the driving wheel shaft 20, And a second driving wheel 23, wherein the axes of the first driving wheel 22, the second driving wheel 23, the third driving wheel 16 and the fourth driving wheel 17 are perpendicular to the axes of the first driving wheel, the second driving wheel, the fifth driving wheel 18 and the sixth driving wheel 19, one end of the first chain 11 or the first steel wire rope, one end of the second chain 12 or the second steel wire rope are respectively and fixedly arranged on the upper pile inserting and pulling fixing seat 13, and the lower end of the first chain 11 or the first steel wire rope sequentially bypasses the fifth driving wheel 18, the first driving wheel, the third driving wheel 16, the first driving wheel 22 or the second driving wheel 23, the fourth driving wheel 17, the second driving wheel and the sixth driving wheel 19 and is fixedly arranged on the lower pile inserting and pulling fixing seat 14.

The underground flowering pile machine 3 is lifted through two chains (a first chain 11 and a second chain 12) or two steel wire ropes (a first steel wire rope and a second steel wire rope) respectively positioned on two sides of the underground flowering pile machine, and is compact in structure, convenient to install and large in load.

The driving wheel shaft 20 is connected with an output shaft of a first gear box 24, an input shaft of the first gear box 24 is connected with an output shaft of a second gear box 25 through a chain transmission mechanism or a steel wire transmission mechanism, and an input shaft of the second gear box 25 is connected with a driving motor 21 and driven to rotate by the driving motor 21. The action of the drive motor 21 is controlled by a controller.

As another embodiment of the transmission mechanism of the present invention, as shown in fig. 9 to 12: drive mechanism is gear drive, including setting up the driving gear 45 in 4 both sides of stake cover, and driving gear 45 sets up along 4 length direction of stake cover, driving gear 45 respectively with first gear 46, the meshing transmission of second gear 47, first gear 46, second gear 47 are rotated by driving gear 48, driven gear 49 drive respectively, and driving gear 48, driven gear 49 meshing transmission, driving gear 48 are rotated by the power supply drive. The first gear 46 and the driving gear 48 are arranged on the same driving gear shaft 50, the second gear 47 and the driven gear 49 are arranged on the same driven gear shaft 44, and the two gear shafts are respectively arranged on the mounting seat through a bearing and a bearing seat. The power source comprises a motor, and the motor is connected with the driving gear shaft 50 sequentially through the first gear box and the second gear box and drives the driving gear shaft 50 to rotate.

The transmission mechanism can also adopt screw transmission, hydraulic transmission and the like, and can be designed according to different practical requirements.

In order to facilitate folding of the underground flowering pile machine 3, if the underground flowering pile machine is suitable for some height-limiting occasions, the mounting base comprises a main mounting base 41 and a bottom plate 42 hinged on the main mounting base 41, the driving wheel shaft 20 is rotatably mounted on the bottom plate 42 through a bearing and a bearing seat, the auxiliary wheel fixing base 15 is fixedly arranged on the bottom plate 42, and the bottom plate 42 rotates around the hinged position to enable the underground flowering pile 3 to be laid on the working platform 2.

As shown in fig. 6 and 7, the driving mechanism includes a lifting motor 26, the lifting motor 26 is connected to the pile core 4 through a lead screw, and the lifting motor 26 drives the lead screw to rotate clockwise or counterclockwise to drive the pile core 4 to lift.

In order to realize the automatic control of the lifting motor 26, as shown in fig. 6 and 7, a mounting plate 27 is disposed on the top of the pile cover 5, vertical plates 28 are disposed on the mounting plate 27 on both sides of the lifting motor 26, an L-shaped guide groove including a horizontal groove and a vertical groove 29 is disposed on the vertical plate 28, a locking sensor 30 is disposed on the vertical plate 28 corresponding to the horizontal groove, an unlocking sensor 31 is disposed on the vertical plate 28 corresponding to the lower end of the vertical groove 29, a returning sensor 32 is disposed on the vertical plate 28 corresponding to the upper end of the vertical groove 29, a lock pin 33 acting with the lifting motor 26 is disposed on the lifting motor 26, and the lock pin 33 moves in the guide groove. The locking sensor 30, the unlocking sensor 31 and the homing sensor 32 are all connected with the controller.

When the lock pin 33 rises to the upper end of the vertical groove 29 along with the lifting motor 26, the homing sensor 32 senses the lock pin 33, and a signal lamp on the homing sensor 32 is turned on at the moment, so that pile pulling can be carried out. The controller can drive the transmission mechanism to act according to the instruction so as to carry out pile pulling.

When the lock pin 33 moves to the lower end of the vertical groove 29 along with the lifting motor, the unlocking sensor 31 senses the lock pin 33, at the moment, a signal lamp of the unlocking sensor 31 is on, the pile core 4 and the pile sleeve 5 are in an unlocking state, and the flowering pile plate 9 can be opened.

When the lock pin 33 rotates to the horizontal groove along with the lifting motor, the locking sensor 30 senses the lock pin 33, at the moment, a signal lamp of the locking sensor 30 is turned on, the pile core 4 and the pile sleeve 5 are locked together, and pile insertion can be carried out.

The driving mechanism of the present invention may be an excavator, a truck crane, or the like.

A plurality of sliding grooves formed by arranging sectional materials in the vertical direction are arranged on the side edge of the work platform provided with the load floating body 1 at intervals, an underground flowering pile driver 3 is arranged in each sliding groove in a sliding mode, a sliding iron 34 (shown in figure 8) is arranged on each sectional material in the vertical direction, when a pile is pulled out, the lower pile inserting and pulling fixing seat 14 rises to the lower end of the sliding iron 34 to drive the sliding iron 34 to move upwards, and a limiting switch 35 used for sensing pile pulling in place is arranged on the sectional material above the sliding iron 34. When the pile pulling-in-place limit switch 35 senses the sliding iron 34, the pile pulling-in-place limit switch 35 sends a signal to the controller, and the controller controls the driving motor 21 of the transmission mechanism to stop acting.

As shown in fig. 1 and 2, the work platform includes a platform frame assembly 36 and a platform panel 37 disposed on the platform frame assembly 36 in a block manner. The work equipment is located on the platform panel 37.

If the above-water operation platform is used for drilling pile operation, a drilling pile machine platform capable of transversely and longitudinally moving is started. The bottom surface of the platform is designed to be higher than the plane area of each panel of the 'sectional platform panel' and is larger than the area of the pile hole. The position of the platform can be adjusted at will before drilling, the pile driver and the platform are locked after the pile position is found accurately, and the platform panel 37 at the drilling position is pried open to implement drilling operation.

As shown in fig. 1, a connection gangway 38 is provided at one end or both ends of the work platform, the connection gangway 38 is hinged with the work platform, and the connection gangway 38 is driven to be unfolded or folded by a lifting device. The connection gangboard 38 includes a gangboard frame and a platform panel arranged on the gangboard frame in a block type. The lifting device generally adopts an oil cylinder, the oil cylinder body is connected to the springboard frame, and the outer end of a piston rod of the oil cylinder is connected to the corresponding position of the platform frame assembly 36. If the connecting springboard is required to be separated from another platform or other connecting combination facilities, the piston rod of the oil cylinder extends outwards to enable the head end of the connecting springboard 38 to be lifted upwards, and the connecting springboard is separated from the connection with other combination facilities and can be independently displaced. If reconnection is required. The piston rod is contracted to make the head of the connection springboard 38 descend to be connected with the corresponding connection part of the opposite side, thereby achieving the purpose of conjoined use.

The lifting devices that actuate the connection ramp 38 may be connected linearly, with multiple above-water platforms forming a modular transport access bridge, or laterally connected to an access bridge, as shown in fig. 10. The bridge-building bored concrete pile-filling construction platform can be used as a temporary wharf and can be connected with a shore to independently bear the bearing tasks of various construction operations.

As shown in fig. 2. The operation platform is detachably connected with the load floating body 1. The detachable connection can be that the work platform is placed directly on the load-carrying float 1 or connected by fasteners or the like.

After the underground blooming pile machine 3 finishes blooming, when the bearing capacity exceeds the integral dead weight of the platform and the load of the table-board equipment, the transmission mechanism continues to operate at the moment, the integral platform can automatically ascend along the sliding groove of the underground blooming pile machine 3 until the integral operation platform leaves two sides to bear the floating bodies 1, and the integral suspension state of the operation platform is formed.

In order to conveniently move the pile drilling machine, a movable pile drilling machine workbench 43 is arranged on the working platform 2. The fine adjustment of the drilling position can be realized, and the position of the cast-in-place pile reaches the optimal shape accuracy.

The use of the utility model:

1. and (5) the blooming pile plate is in a closed state and enters a construction operation site.

2. The locking sensor 30 is on, and the pile core 4 of the underground flowering pile 3 is locked with the pile sleeve 5.

3. The driving mechanism starts pile inserting, and the blooming pile plate keeps the closed pile core 4 and the pile sleeve 5 to synchronously run in a locking state.

4. When the blooming pile plate is inserted to the set soil penetration depth in the closed state, the lifting motor 26 is started, the lock pin 33 is automatically disengaged, and the unlocking sensor 31 is turned on.

5. The lifting motor 26 starts to work, and the pile core 4 is pulled towards the top end of the pile sleeve 5, so that the flowering pile plate is opened.

6. The transmission mechanism continues to insert the underground flowering pile downwards, at the moment, the pile core 4 and the pile sleeve 5 move in opposite directions, the flowering pile plate continues to be opened until the flowering pile plate contacts a set limit stop point, the bottom surface of the flowering pile plate and the pile body form a flat bottom with the maximum bearing capacity, and the bearing area is greatly increased.

7. After the underground blooming pile machine 3 finishes blooming, when the bearing capacity exceeds the integral dead weight of the platform and the load of the table-board equipment, the transmission mechanism continues to operate at the moment, the integral platform can automatically ascend along the sliding groove of the underground blooming pile machine 3 until the integral operation platform leaves two sides to bear the floating bodies 1, and the integral suspension state of the operation platform is formed.

8. At this time, the bearing floating body 1 has completed the task, and can be quitted from the site to receive the next bearing and conveying task.

9. When the controller continues to work and can automatically or manually adjust the working platform 2 to the set height and the set balance degree, the underground flowering piles 3 complete all the pile inserting work, and the platform can be automatically adjusted and kept balanced for a long time without closing the system if necessary.

10. The lifting device of the starting connection springboard 38 can be connected in a straight line, the overwater operation platform becomes a combined transportation temporary bridge or is transversely connected with the temporary bridge, the combined transportation temporary bridge is used as a bridge construction, drilling and pile filling construction operation platform and is connected with the shore to be used as a temporary wharf, and the combined transportation temporary bridge can also be connected with other buildings or facilities to realize the independent bearing tasks of various construction operations.

11. After the load bearing task is carried out, when the whole overwater operation platform needs to be shifted, the load-bearing floating body 1 is instructed to return to enter the positions below the two sides of the operation platform 2 again to be stopped stably.

12. And the lifting motor 26 is started again, and after the homing sensor 32 is lightened, the transmission mechanism is started again to rotate forward to descend the whole working platform 2 to be in contact with and fixed with the load-bearing floating bodies 1 on the two sides again.

13. The lifting device of the connecting springboard 38 is started to separate the connecting springboard from the connecting springboard, and then the starting transmission mechanism is instructed to carry out pile pulling action, and the bearing chain of the underground flowering pile 3 is pulled upwards, so that the pressed pile flowers on the back of the flowering pile board can be automatically closed to realize easy pile pulling.

14. Pile pulling continues with the closure of the pile plate, and the underground flowering pile 3 continues to rise until the top of the lower pile driving holder contacts the slider 34 and lifts it.

15. When the sliding iron 34 rises to the set pile pulling height, the pile pulling in-place limit switch 35 is turned on, and pile pulling is stopped. I.e. the pile pulling is finished, the displacement may start.

16. Because the loading floating bodies 1 on the two sides of the working platform 2 can support the working platform 2 on the water surface and the height of the upper water surface is higher than the pile top height of the cast-in-place pile, the whole working platform 2 is not interfered by the part of the cast-in-place pile exposed out of the water surface during displacement, and can smoothly exit from the pile position.

17. No matter how long the transportation temporary bridge is, how many construction platforms are, as long as the platform equipment is enough, all the pile inserting connection platform installation and other works can be completed in the same time.

The above-mentioned embodiment is only one of the preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so: all equivalent changes made according to the shape, structure and principle of the utility model are covered by the protection scope of the utility model.

Claims (14)

1. The utility model provides a multi-functional platform on water of whole aversion which characterized in that: the device comprises a load-carrying floating body (1) arranged at left and right intervals, an operation platform (2) is erected on the load-carrying floating body (1), a plurality of underground flowering piles (3) are arranged on the side edge of the operation platform (2) where the load-carrying floating body (1) is arranged at intervals, and each underground flowering pile (3) is driven by a transmission mechanism to be inserted and pulled.

2. A multifunctional integrally-displaceable water platform according to claim 1, characterised in that: the underground flowering pile (3) comprises a pile core (4) and a pile sleeve (5) sleeved outside the pile core (4), the lower end of the pile core (4) extends out of the pile sleeve (5) and is provided with a pile toe (6), a plurality of pull rod seat chutes (7) arranged in the vertical direction are circumferentially arranged at one end, close to the pile toe (6), of the pile sleeve (5), pull rod seats (8) corresponding to the pull rod seat chutes (7) in number and position are arranged on the pile core (4), each pull rod seat (8) can move up and down in the corresponding pull rod seat chute (7), a flowering pile plate is hinged to the lower end of the pile sleeve (5) and is connected with the pull rod seat (8) through a pull rod (10), the flowering pile plate passes through the lifting motion of the pile core (4) in the pile sleeve (5) to be opened and closed, and the pile core (4) is driven to lift by a driving mechanism.

3. A multifunctional integrally-displaceable water platform according to claim 2, characterised in that: the transmission mechanism is a chain transmission mechanism or a steel wire rope transmission mechanism and comprises a first chain (11) or a first steel wire rope and a second chain (12) or a second steel wire rope which are positioned at two sides of an underground flowering pile (3), an upper pile plugging fixing seat (13) and a lower pile plugging fixing seat (14) are respectively arranged at two sides of a pile sleeve (5), a first transmission wheel and a second transmission wheel are respectively arranged on the upper pile plugging fixing seat (13) and the lower pile plugging fixing seat (14), a mounting seat is arranged on an operation platform (2) between the upper pile plugging fixing seat (13) and the lower pile plugging fixing seat (14), an auxiliary wheel fixing seat (15) is arranged on the mounting seat, a third transmission wheel (16), a fourth transmission wheel (17), a fifth transmission wheel (18) and a sixth transmission wheel (19) are arranged on the auxiliary wheel fixing seat (15), and a driving wheel shaft (20) is rotatably arranged on the mounting seat, the driving wheel shaft (20) is driven to rotate by a driving motor (21), a first driving wheel (22) and a second driving wheel (23) are arranged on the driving wheel shaft (20), the axial lines of the first driving wheel (22), the second driving wheel (23), the third driving wheel (16) and the fourth driving wheel (17) are perpendicular to the axial lines of the first driving wheel, the second driving wheel, the fifth driving wheel (18) and the sixth driving wheel (19), one end of the first chain (11) or the first steel wire rope, one end of the second chain (12) or the second steel wire rope are fixedly arranged on the upper pile inserting and pulling fixing seat (13) respectively, and the lower end of the first chain (11) or the first steel wire rope sequentially bypasses the fifth driving wheel (18), the first driving wheel, the third driving wheel (16), the first driving wheel (22) or the second driving wheel (23), the fourth driving wheel (17), the second driving wheel and the sixth driving wheel (19) and is fixedly arranged on the lower pile inserting and pulling fixing seat (14).

4. A multifunctional integrally-displaceable water platform according to claim 3, characterised in that: the mounting seat comprises a main mounting seat (41) and a bottom plate (42) hinged to the main mounting seat (41), the auxiliary wheel fixing seat (15) is fixedly arranged on the bottom plate (42), and the bottom plate (42) rotates around the hinged position to enable the underground flowering pile (3) to be laid on the operation platform (2).

5. A multifunctional integrally-displaceable water platform according to claim 3, characterised in that: the driving wheel shaft (20) is connected with an output shaft of a first gear box (24), an input shaft of the first gear box (24) is connected with an output shaft of a second gear box (25) through a chain transmission mechanism, and an input shaft of the second gear box (25) is connected with a driving motor (21) and driven to rotate by the driving motor (21).

6. A multifunctional integrally-displaceable water platform according to claim 2, characterised in that: drive mechanism is gear drive, including setting up driving gear (45) in stake cover both sides, driving gear (45) set up along stake cover (5) length direction, driving gear (45) respectively with first gear (46), second gear (47) meshing transmission, first gear (46), second gear (47) are respectively by driving gear (48), driven gear (49) drive rotation, driving gear (48), driven gear (49) meshing transmission, and driving gear (48) are rotated by the power supply drive.

7. A multifunctional integrally-displaceable water platform according to claim 2, characterised in that: the driving mechanism comprises a lifting motor (26), the lifting motor (26) is connected with the pile core (4) through a screw rod, and the lifting motor (26) drives the screw rod to rotate clockwise or anticlockwise so as to drive the pile core (4) to lift.

8. A multifunctional integrally-displaceable water platform according to claim 7, characterised in that: the pile driving device is characterized in that a mounting plate (27) is arranged at the top of the pile sleeve (5), vertical plates (28) are respectively arranged on the mounting plates (27) on two sides of the lifting motor (26), an L-shaped guide groove is formed in each vertical plate (28) and comprises a horizontal groove and a vertical groove (29), a locking sensor (30) is arranged on each vertical plate (28) corresponding to the horizontal groove, an unlocking sensor (31) is arranged on each vertical plate (28) corresponding to the lower end of each vertical groove (29), a returning sensor (32) is arranged on each vertical plate (28) corresponding to the upper end of each vertical groove (29), a lock pin (33) acting along with the lifting motor (26) is arranged on the lifting motor (26), and the lock pin (33) moves in each guide groove.

9. A multifunctional integrally-displaceable water platform according to claim 3, characterised in that: the side edge of the operation platform, which is provided with the load floating body (1), is provided with a plurality of sliding grooves at intervals, the sliding grooves are formed by arranging sectional materials in the vertical direction, underground flowering piles (3) are arranged in each sliding groove in a sliding mode, sliding iron (34) are arranged on the sectional materials in the vertical direction, during pile pulling, the lower end of the sliding iron (34) acted by the lower pile plugging and pulling fixing seat (14) drives the sliding iron (34) to move upwards, and a limiting switch (35) used for sensing pile pulling in place is arranged on the sectional materials above the sliding iron (34).

10. A multifunctional integrally displaceable water platform according to any one of claims 1 to 9, characterised in that: the operation platform (2) comprises a platform frame assembly (36) and a platform panel (37) arranged on the platform frame assembly (36) in a blocking mode.

11. A multifunctional integrally displaceable water platform according to any one of claims 1 to 9, characterised in that: one end or two ends of the operation platform (2) are provided with connecting springboards (38), the connecting springboards (38) are hinged with the operation platform (2), and the connecting springboards (38) are driven to be unfolded or folded through a lifting device.

12. A multifunctional integrally-displaceable water platform according to claim 11, characterised in that: the connecting springboard (38) comprises a springboard frame and a platform panel arranged on the springboard frame in a blocking mode.

13. A multifunctional integrally displaceable water platform according to any one of claims 1 to 9, characterised in that: the operation platform (2) is detachably connected with the load floating body (1).

14. A multifunctional integrally displaceable water platform according to any one of claims 1 to 9, characterised in that: and a movable pile drilling machine workbench (43) is arranged on the working platform (2).

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