CN113371147B

CN113371147B - Buoyancy tank locking device and wind power platform

Info

Publication number: CN113371147B
Application number: CN202110929440.5A
Authority: CN
Inventors: 季刚
Original assignee: Nantong Zhongzhou Wind Power Engineering Technology Co ltd
Current assignee: Nantong Zhongzhou Wind Power Engineering Technology Co ltd
Priority date: 2021-08-13
Filing date: 2021-08-13
Publication date: 2021-10-22
Anticipated expiration: 2041-08-13
Also published as: CN113371147A

Abstract

The invention provides a buoyancy tank locking device and a wind power platform, comprising: the two sides of the middle plate are provided with rotatable support arms; the tail end of the support arm is provided with a fixed structure; the connecting block is arranged on the side wall of the buoyancy tank, and the support arm is fixedly connected with the buoyancy tank through the fixing structure after the fixing structure is inserted into the connecting block; the adjusting component comprises a connecting arm, and the connecting arm can be accommodated in the supporting arm and can slide relative to the supporting arm; the floating boxes are changed between a fixed state and a soft connection state by changing the connection state of the end parts of the two connecting arms close to each other. The invention enables the worker to conveniently and easily disassemble and assemble the two floating boxes through the disassembly and assembly of the fixed structure and the connecting block. Through the change between fixed state and the flexible coupling state between adjusting part with the flotation tank, easy operation makes things convenient for the later stage staff to overhaul equipment on water and can be convenient for use the flotation tank to rebuild as the basis to realize its required mesh.

Description

Buoyancy tank locking device and wind power platform

Technical Field

The invention relates to the technical field of water surface platforms, in particular to a buoyancy tank locking device and a wind power platform.

Background

One box body is a module which can be used for forming a floating wharf, a floating trestle, an above-water operation platform and a lightering gate bridge and also can be used for erecting a floating bridge. The connection mode of the buoyancy tanks in the buoyancy tank ship in the prior art mainly comprises welding, plate bolt connection, high-strength bolt connection and the like. However, after the floating boxes are connected in the connection mode, the floating boxes are not easy to disassemble and assemble. In order to solve the technical problem, the license publication No. CN110550160B, a buoyancy tank locking device and a piece of water equipment, the buoyancy tank locking piece arranged on the buoyancy tank body is connected and fixed in the horizontal direction through a locking piece which is easy to disassemble, and the locking piece and the buoyancy tank locking piece are fixed in the vertical direction through a connecting piece which is easy to disassemble. However, in some situations, for example, when the floating island is reconstructed on the basis of the above situation, there is no large wind and wave in the inner river, and it may be necessary to change the connection state of one or some of the tanks to achieve the purpose of improving the water quality efficiency, or based on that the tanks are built on other equipment, such as aeration equipment, etc., to achieve the desired purpose along with the water and wave to some extent. In view of this, it is necessary to improve the existing solutions, so as to provide a buoyancy tank locking device and a wind power platform, which can be quickly disassembled and assembled, is simple to disassemble and assemble, and can quickly change the connection state between two connected buoyancy tanks.

Disclosure of Invention

The invention aims to provide a buoyancy tank locking device and a wind power platform, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a pontoon locking device comprising:

the two sides of the middle plate are provided with rotatable support arms;

the tail end of the support arm is provided with a fixed structure;

the connecting block is arranged on the side wall of the buoyancy tank, and the support arm is fixedly connected with the buoyancy tank through the fixing structure after the fixing structure is inserted into the connecting block;

the adjusting component comprises a connecting arm, and the connecting arm can be accommodated in the supporting arm and can slide relative to the supporting arm;

and changing the connection state of the end parts of the two connecting arms close to each other to change the floating boxes between a fixed state and a soft connection state.

Preferably, offer the first cell body that is used for accomodating the linking arm on support arm and the intermediate lamella, the rotation sleeve is installed to one of them tip of two linking arms, and the tip of another linking arm inserts in the linking arm that the rotation sleeve corresponds through rotating the sleeve.

Preferably, a second groove body is further formed in the support arm and located at one end of the first groove body far away from the middle plate, and the end portion of the connecting arm slides relative to the support arm through a limiting block located in the second groove body.

Preferably, a fixing frame is installed on the support arm, a locking bolt is installed at the end of the fixing frame, a bolt hole corresponding to the locking bolt is further formed in the support arm, when the connecting arm is in a soft connection state, the fixing frame is screwed into the bolt hole through the locking bolt, the connecting arm is fixed, and a magnet block used for sucking the limiting block in the soft connection state is installed in the second groove body.

Preferably, fixed knot constructs including opening the arm, the tip of support arm has the holding tank, the tip of opening the arm articulates on the tip of support arm, and installs the torsional spring between the two, when overcoming this torsional spring elasticity the arm of opening is accomodate in the holding tank.

Preferably, the support arm close to the end part of the accommodating groove is sleeved with a rotating ring and a fixed stop block, the rotating ring is in threaded connection with the support arm and used for keeping the opening arm accommodated in the accommodating groove, and after the opening arm opens in the connecting block, the rotating ring and the opening arm are clamped tightly so that the support arm is fixed with the connecting block.

Preferably, offer on the connecting block and be used for support arm male trompil, the support arm will open the arm and insert through the trompil when opening the arm and accomodate in the holding tank, install the buffer block on the connecting block side relative with the trompil, set up the big buffer port of the opening than bottom diameter on this buffer block.

Preferably, the two sides of the middle plate are also provided with tightening structures, the middle part of the rope is fixed on the middle plate and tightened through the tightening structures, and the two ends of the rope are respectively connected with the buoyancy tanks.

Preferably, each of the winding disks is provided with a spiral piece having a spiral winding gap, and the adjusting rope is spirally wound on the winding disk along the winding gap.

Preferably, the tightening structure comprises two meshed gears, the two gears are sleeved with winding discs, one of the gears is driven by external power equipment, each winding disc is connected with an adjusting rope, and the adjusting rope is connected with pull rings symmetrically arranged on the rope in the middle.

In order to achieve the above purpose, the invention also provides the following technical scheme:

the utility model provides a wind power platform, includes as above-mentioned arbitrary flotation tank locking device, the array is installed photovoltaic board on the flotation tank.

Compared with the prior art, the invention has the beneficial effects that:

the tip of two earlier support arms inserts in the connecting block, and it is fixed with the installation of flotation tanks to realize through fixed knot structure, be the fixed state when connecting between two adjacent flotation tanks, draw close each other with the corresponding tip of two support arms earlier, then aim at the rotating sleeve with one of them tip, rotate the regulation to the rotating sleeve, can realize the rigid connection of two support arms and intermediate lamella, thereby it is fixed to realize two adjacent flotation tanks, be the flexible coupling between two adjacent flotation tanks, rotate the regulation to the rotating sleeve, make two support arms break away from the contact, thereby can realize changing between fixed state and the flexible coupling state between the flotation tanks, through setting up tightening structure, thereby can be the interval between the flotation tanks especially the corner interval keeps unanimous.

According to the invention, through the assembly and disassembly of the fixing structure and the connecting block, the assembly and disassembly of the two floating boxes by workers are convenient and easy. When the installation is dismantled, only need can realize the fixed at level and vertical direction of two flotation tanks with fixed knot constructs with the connecting block is fixed and dismantles, when the connection status of two adjacent flotation tanks needs to be changed moreover, can pass through adjusting part with changeing between the flotation tank between fixed state and flexible coupling state. Whole easy operation makes things convenient for the later stage staff to overhaul equipment on water and can be convenient for rebuild based on the flotation tank to realize its required mesh.

Drawings

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

FIG. 2 is a schematic diagram illustrating the transition between the fixed state and the flexible connection state according to the present invention;

FIG. 3 is a schematic view of two arms of the present invention secured together;

FIG. 4 is a schematic view of the opening trend of the opening arm of the present invention;

FIG. 5 is a schematic view of the opening arm being located in the receiving slot according to the present invention;

FIG. 6 is a schematic view of the present invention showing the arm inserted into the connecting block and fixedly connected to the connecting block;

FIG. 7 is a schematic view of the tightening mechanism of the present invention engaged with a rope;

FIG. 8 is a schematic view of the structure of the winding disc of the present invention.

In the figure: 1 flotation tank, 2 support arms, 20 open arms, 21 swivel, 22 backstop piece, 23 holding tank, 24 torsional springs, 25 first cell body, 26 second cell body, 27 bolt holes, 28 screw threads, 3 intermediate plates, 4 connecting blocks, 40 buffer blocks, 41 buffer openings, 42 trompil, 5 photovoltaic board, 6 rope, 7 connecting arms, 8 stopper, 80 pull ring, 9 magnet piece, 10 mount, 11 rotating sleeve, 12 locking bolt, 13 tightening structure, 14 gear, 15 winding disc, 16 regulation rope, 17 flight, 18 winding clearance.

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.

Example (b):

referring to fig. 1 to 8, the present invention provides a technical solution:

a pontoon locking device comprising:

a middle plate 3, two sides of which are provided with rotatable support arms 2;

the tail end of the support arm 2 is provided with a fixed structure;

the connecting block 4 is arranged on the side wall of the buoyancy tank 1, and after the fixing structure is inserted into the connecting block 4, the support arm 2 is fixedly connected with the buoyancy tank 1 through the fixing structure;

an adjusting component which comprises a connecting arm 7, wherein the connecting arm 7 can be accommodated in the support arm 2 and can slide relative to the support arm 2;

the buoyancy tanks 1 are changed between a fixed state and a soft connection state by changing the connection state of the end portions of the two connecting arms 7 which are close to each other.

Specifically, offer the first cell body 25 that is used for accomodating connecting arm 7 on support arm 2 and the intermediate plate 3, the rotation sleeve 11 is installed to one of them tip of two connecting arms 7, and the tip of another connecting arm 7 inserts in the connecting arm 7 that the rotation sleeve 11 corresponds through rotating sleeve 11. A second groove body 26 is further formed in the support arm 2, the second groove body 26 is located at one end of the first groove body 25 far away from the middle plate 3, and the end portion of the connecting arm 7 slides relative to the support arm 2 through a limiting block 8 arranged in the second groove body 26.

As shown in fig. 2 to 3, when there is a fixed connection between two adjacent buoyancy tanks 1: the mounting bracket 10 does not straddle the arm 2. First draw close two corresponding tip of support arm 2 each other, then aim at one of them tip and rotate sleeve 11, in this embodiment, two thick support arm 2a of support arm 2a thin support arm 2b, thin can insert thick in, and thin support arm 2b has external screw thread 2c, it has the internal thread of complex with it to rotate sleeve 11, and it is the tip of cover at thick support arm 2a to rotate sleeve 11 through the bearing, insert thin thick in like this through rotating sleeve 11 and adjust, contact the back of supporting tightly when two stopper 8 and the front end inner wall of second cell body 26, can realize the rigid connection of two support arms 2 and intermediate lamella 3, thereby realize that two adjacent flotation tanks 1 are fixed.

Specifically, a fixing frame 10 is installed on the support arm 2, a locking bolt 12 is installed at the end of the fixing frame 10, a bolt hole 27 corresponding to the locking bolt 12 is further formed in the support arm 2, when the connecting arm 7 is in a soft connection state, the fixing frame 10 is screwed into the bolt hole 27 through the locking bolt 12 to fix the connecting arm 7, and a magnet block 9 used for sucking the limiting block 8 in the soft connection state is installed in the second groove body 26.

As shown in fig. 2 to 3, when there is a soft connection between two adjacent buoyancy tanks 1: two support arms 2 break away from the contact, and two support arms 2 all can swing at the side of intermediate lamella 3 this moment, so do not be rigid connection between two adjacent flotation tanks 1, secondly can misplace from top to bottom in the vertical direction, change the connection state to can adapt to outside unrestrained fluctuation from top to bottom. During this state, with support arm 2 to the rear end inner wall of second cell body 26, until being held by magnet piece 9, then rotate two mounts 10 to correspond and span every support arm 2, break away from the contact like this at two support arms 2, can fix support arm 2 when realizing the flexible coupling between flotation tank 1, thereby avoid because of its work under the work that drops, rocks etc. and interfere the flexible coupling state.

Specifically, fixed knot constructs including opening arm 20, the tip of support arm 2 has holding tank 23, opening arm 20's tip articulates on the tip of support arm 2, and installs torsional spring 24 between the two, when overcoming this torsional spring 24 elasticity opening arm 20 accomodates in holding tank 23. The support arm 2 close to the end of the accommodating groove 23 is sleeved with a rotating ring 21 and a fixed stop block 22, the rotating ring 21 is in threaded connection with the support arm 2 and is used for keeping the opening arm 20 accommodated in the accommodating groove 23, and after the opening arm 20 is opened in the connecting block 4, the rotating ring 21 and the opening arm 20 are clamped tightly, so that the support arm 2 is fixed with the connecting block 4. The connecting block 4 is provided with a hole 42 for inserting the support arm 2, when the support arm 20 is accommodated in the accommodating groove 23, the support arm 2 is inserted into the opening arm 20 through the hole 42, the side face of the connecting block 4 opposite to the hole 42 is provided with a buffer block 40, and the buffer block 40 is provided with a buffer port 41 with an opening larger than the bottom diameter.

The end of two support arms 2 is inserted into connecting block 4 to it is fixed with the installation of flotation tank 1 to realize through fixed knot structure: as shown in fig. 5, initially, the end of the arm 2 is not inserted into the connecting block 4, the two opening arms 20 are folded into the receiving groove 23, then the rotating ring 21 is rotated to keep the opening arms 20 in the receiving groove 23, then the end of the arm 2 is inserted into the connecting block 4 through the opening 42, then the rotating ring 21 is rotated to the original state contacting with the stop block 22, at this time, the two opening arms 20 are under the elastic force of the torsion spring 24, and the opening arms 20 are separated from the constraint of the rotating ring 21 as shown in the arrow direction in fig. 4 to be opened, then the rotating ring 21 is rotated to be matched with the thread 28 at the end of the arm 2 due to the internal thread thereof to be clamped with the opening arms 20 to realize the fastening of the arm 2 and the connecting block 4, and further realize the fixing with the buoyancy tank 1. When the rotary ring 21 is disassembled, the rotary ring 21 is only required to be rotated back, then the support arm 2 is pushed to the buffer block 40, the buffer opening 41 can inwards fold the opening arm 20, an operator can conveniently further accommodate the opening arm into the accommodating groove 23, then the opening arm is drawn out from the opening 42, and then the rotary ring 21 is used for keeping.

Specifically, tightening structures 13 are further mounted on two sides of the middle plate 3, the middle of the rope 6 is fixed to the middle plate 3 and tightened through the tightening structures 13, and two ends of the rope 6 are connected with the buoyancy tank 1 respectively. The tightening structure 13 comprises two meshed gears 14, the two gears 14 are sleeved with winding discs 15, one gear 14 is driven by external power equipment, each winding disc 15 is connected with an adjusting rope 16, and the adjusting ropes 16 are connected with pull rings 80 symmetrically arranged on the rope 6 in the middle.

Specifically, each of the winding disks 15 is provided with a spiral piece 17, the spiral piece 17 has a spiral winding gap 18, and the adjusting rope 16 is spirally wound on the winding disk 15 along the winding gap 18.

As shown in fig. 7, in order to prevent the end portions of the buoyancy tanks 1 except the arms 2 from being inclined when the buoyancy tanks 1 are in a fixed state or a flexible connection state, the intervals between the buoyancy tanks 1, particularly the intervals at the corners, may be kept uniform by providing the tightening structures 13. When fixing the rope both ends to flotation tank 1 side, the middle part is fixed to intermediate lamella 3, and two tip of rope 8 are symmetrical about the middle part, can tentatively fix two flotation tanks 1 this moment and make the corner interval keep unanimous, then through adjusting tightening structure 13: external power equipment drives one of the gears 14 such as a stepping motor, and then the other gear 14 synchronously rotates, so that the adjusting ropes 16 which are respectively connected can be synchronously wound at the same time, the contraction distances of the two ends of each rope 8 are consistent, the ropes 8 are tightened through contraction, and the distance between the corners of the adjacent buoyancy tanks 1 is kept consistent. In order to ensure that the contraction distances of the two ends of the rope 8 are consistent, a spiral piece 17 is installed on the winding disc 15, the spiral piece 17 is provided with a spiral winding gap 18, and the rope 16 is adjusted to be wound and distributed along the winding gap 18. By driving one of the gears 14, the two adjusting ropes 16 can be synchronously tightened, and the synchronous drawing of the two side ropes 8 symmetrical with the middle plate 3 is realized.

The wind power platform comprises the buoyancy tank locking device, and photovoltaic panels 5 are arranged on the buoyancy tank 1 in an array mode. The detailed structure of the buoyancy tank locking device can refer to the above embodiment, and is not described herein again; it can be understood that, because the buoyancy tank locking device is used in the wind power platform of the present invention, embodiments of the wind power platform of the present invention include all technical solutions of all embodiments of the buoyancy tank locking device, and the achieved technical effects are also completely the same, and are not described in detail herein.

When the connecting device is used, the end parts of two support arms 2 are inserted into the connecting blocks 4, the mounting and the fixing with the floating boxes 1 are realized through the fixing structures, when the two adjacent floating boxes 1 are connected in a fixed state, the corresponding end parts of the two support arms 2 are drawn close to each other, then one end part is aligned to the rotating sleeve 11, the rotating sleeve 11 is rotated and adjusted, the rigid connection between the two support arms 2 and the middle plate 3 can be realized, the fixing of the two adjacent floating boxes 1 is realized, when the two adjacent floating boxes 1 are in a soft connection state, the rotating sleeve 11 is rotated and adjusted, so that the two support arms 2 are separated from contact, the conversion between the fixed state and the soft connection state between the floating boxes 1 can be realized, and the distance between the floating boxes 1, particularly the distance between corners can be kept consistent through the arrangement of the tightening structures 13.

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

Claims

1. A pontoon locking device, comprising:

a middle plate (3), two sides of which are provided with rotatable support arms (2);

the tail end of the support arm (2) is provided with a fixed structure;

the connecting block (4) is arranged on the side wall of the buoyancy tank (1), and after the fixing structure is inserted into the connecting block (4), the support arm (2) is fixedly connected with the buoyancy tank (1) through the fixing structure;

the adjusting assembly comprises a connecting arm (7), and the connecting arm (7) can be accommodated in the support arm (2) and can slide relative to the support arm (2);

the connection state of the end parts of the two connecting arms (7) close to each other is changed, so that the floating boxes (1) are changed between a fixed state and a soft connection state;

tightening structures (13) are further installed on two sides of the middle plate (3), the middle of the rope (6) is fixed to the middle plate (3) and tightened through the tightening structures (13), and two ends of the rope (6) are connected with the buoyancy tank (1) respectively.

2. The buoyancy tank locking device as claimed in claim 1, wherein the support arm (2) and the intermediate plate (3) are provided with first groove bodies (25) for accommodating the connecting arms (7), a rotating sleeve (11) is mounted at one end of each of the two connecting arms (7), and the end of the other connecting arm (7) is inserted into the connecting arm (7) corresponding to the rotating sleeve (11) through the rotating sleeve (11).

3. The buoyancy tank locking device as claimed in claim 1, wherein the support arm (2) is further provided with a second groove (26), the second groove (26) is located at one end of the first groove (25) far away from the middle plate (3), and the end of the connecting arm (7) slides relative to the support arm (2) through a limiting block (8) arranged in the second groove (26).

4. The buoyancy tank locking device according to claim 3, wherein a fixing frame (10) is installed on the support arm (2), a locking bolt (12) is installed at the end of the fixing frame (10), a bolt hole (27) corresponding to the locking bolt (12) is further formed in the support arm (2), when the connecting arm (7) is in the soft connection state, the fixing frame (10) is screwed into the bolt hole (27) through the locking bolt (12) to fix the connecting arm (7), and a magnet block (9) used for absorbing the limiting block (8) in the soft connection state is installed in the second groove body (26).

5. A float lock device according to claim 1 wherein the securing structure comprises an opening arm (20), the end of the arm (2) having a receiving slot (23), the end of the opening arm (20) being hinged to the end of the arm (2) with a torsion spring (24) mounted therebetween, the opening arm (20) being received in the receiving slot (23) when the spring force of the torsion spring (24) is overcome.

6. A buoyancy tank locking device according to claim 5, characterized in that the arm (2) near the end of the receiving groove (23) is sleeved with a swivel (21) and a fixed stop block (22), the swivel (21) and the arm (2) are connected by screw threads for keeping the opening arm (20) received in the receiving groove (23), and after the opening arm (20) is opened in the connecting block (4), the swivel (21) and the opening arm (20) are clamped to fix the arm (2) and the connecting block (4).

7. The buoyancy tank locking device according to claim 5, wherein the connecting block (4) is provided with an opening (42) for inserting the support arm (2), the support arm (2) is inserted into the opening (20) through the opening (42) when the opening arm (20) is received in the receiving groove (23), a buffer block (40) is mounted on the side surface of the connecting block (4) opposite to the opening (42), and the buffer block (40) is provided with a buffer port (41) with an opening larger than the bottom diameter.

8. A pontoon locking device according to claim 7, wherein the tightening structure (13) comprises two meshing gears (14), each gear (14) being fitted with a winding disc (15), one of the gears (14) being driven by external power means, each winding disc (15) being connected to an adjusting rope (16), the adjusting rope (16) being connected to pull rings (80) of the rope (6) symmetrically mounted about a central portion.

9. A buoyancy tank locking device according to claim 8, wherein each of the winding disks (15) is provided with a spiral piece (17), the spiral piece (17) has a spiral winding gap (18), and the adjusting rope (16) is spirally wound on the winding disk (15) along the winding gap (18).

10. A wind power platform, characterized in that it comprises a pontoon locking device according to any one of claims 1 to 9, the pontoon (1) being provided with photovoltaic panels (5) in an array.