CN114370042A

CN114370042A - Stable assembly type offshore booster station

Info

Publication number: CN114370042A
Application number: CN202111676214.7A
Authority: CN
Inventors: 周利柱; 郭志涛; 曾德志; 许志文; 文万平; 蔡文发
Original assignee: Hainan Electric Power Design and Research Institute of PowerChina Co Ltd
Current assignee: Hainan Electric Power Design and Research Institute of PowerChina Co Ltd
Priority date: 2021-12-31
Filing date: 2021-12-31
Publication date: 2022-04-19

Abstract

The invention provides a stable assembly type offshore booster station, which comprises a pile body, an installation barrel, a base, an insertion barrel, an installation mechanism, a limiting mechanism, a platform frame and a plurality of containers, wherein after the pile body is installed at sea, in the process of installing the base, after the pile body is installed at sea, the base is hoisted to the pile body through hoisting equipment such as a hoist, the insertion barrel on the base is driven to be aligned with the installation barrel on the pile body through the limiting mechanism, the hoist drives the base to descend, and the insertion barrel is positioned through the installation mechanism, so that the insertion barrel can be quickly and accurately inserted into the installation barrel to complete the installation work of the base, wherein the containers are detachably installed on the base, the containers are conveniently selected to be installed on land and at sea according to actual installation conditions, convenience is provided for the installation work, and the installation work of the platform frame can be completed by inserting the platform frame into the base, the booster station installation method has the advantages that the booster station can be installed quickly and accurately, installation difficulty of the booster station is reduced, and high installation efficiency is achieved.

Description

Stable assembly type offshore booster station

Technical Field

The invention relates to the technical field of offshore wind power generation, in particular to a stable assembly type offshore booster station.

Background

Wind power generation is a development direction of clean energy and is an important subject of clean energy in recent years, particularly for offshore wind power generation, a wind power generation field can be used for helping clean energy, the current European market is a gathering place of a main wind power plant, the coastal area of China is rich in wind energy resources, the traffic and power grid resources are superior, the offshore wind power generation field development condition is provided, the superior condition is brought to a wind power generation technology, the wind power generation also needs to be combined and matched with an offshore booster station in the application process, the offshore booster station is arranged on the basis of the installed capacity scale of a wind power generator, and the economic benefit of the wind power plant is improved by arranging the offshore booster station.

Traditional booster station is because its equipment is many and miscellaneous, need reserve a large amount of equipment space and numerous function cabins, and the structure is complicated relatively, and the platform area is great, is difficult to the outfitting to there is the problem that is difficult to fix a position and each container needs to install respectively and leads to the installation degree of difficulty higher and installation effectiveness lower in the installation.

Disclosure of Invention

The invention aims to provide a stable assembly type offshore booster station aiming at overcoming the defects in the prior art, and aims to solve the problems.

The invention provides a stable assembly type offshore booster station, which comprises:

the pile body is provided with an installation cylinder;

the base is provided with an inserting cylinder which can be inserted on the mounting cylinder;

the mounting mechanism is detachably mounted on the base and can play a role in positioning and mounting the plug-in cylinder;

the limiting mechanism is used for driving the inserting cylinder to align to the mounting cylinder and can be matched with the mounting mechanism to perform positioning mounting work on the inserting cylinder;

the platform frame is arranged on the base, and a crane is arranged on the platform frame;

a plurality of container, a plurality of container demountable installation be in on the base.

Preferably, the installation cylinder is provided with an installation groove, the insertion cylinder is provided with an insertion column which is used for being inserted into the installation groove, the insertion column is provided with a conical part, and the installation cylinder is provided with a butting part for butting the insertion cylinder.

Preferably, installation mechanism includes a plurality of concatenation arc board and a plurality of installation arc board, and a plurality of installation arc board can be around forming the barrel, a plurality of installation arc board can be around forming the funnel, the installation arc board sets up on the concatenation arc board, be provided with the confession on the installation section of thick bamboo the slot that concatenation arc board was pegged graft.

Preferably, the limiting mechanism comprises a floating frame, a position adjusting assembly and a limiting assembly, the position adjusting assembly and the limiting assembly are arranged on the floating frame, the position adjusting assembly can clamp the mounting barrel to adjust the position of the floating frame so as to adjust the position of the limiting assembly, and the limiting assembly can act on the plug-in barrel and drive the axis of the plug-in barrel to be aligned with the axis of the mounting barrel.

Preferably, the position adjusting assembly comprises a first driving motor, a first limiting rod, a first rotating rod, a first jacket and a second jacket, the first driving motor and the first limiting rod are both arranged on the floating frame, the first jacket and the second jacket are both movably arranged on the first limiting rod, the first rotating rod is rotatably arranged on the floating frame, the first driving motor is in transmission connection with the first rotating rod and can drive the first rotating rod to rotate, the first rotating rod is provided with a first thread part and a second thread part with the opposite turning direction of the first thread part, the first clamping sleeve is provided with a first threaded hole matched with the first threaded portion, the second clamping sleeve is provided with a second threaded hole matched with the second threaded portion, and the first clamping sleeve and the second clamping sleeve can approach each other to clamp the mounting cylinder.

Preferably, the limiting assembly includes a second driving motor, a second limiting rod, a second rotating rod, a third jacket, a fourth jacket and an elastic limiting structure, the second driving motor and the second limiting rod are both disposed on the floating frame, the third jacket and the fourth jacket are both movably mounted on the second limiting rod, the second rotating rod is rotatably mounted on the floating frame, the second driving motor is in transmission connection with the second rotating rod and can drive the second rotating rod to rotate, the second rotating rod is provided with a third threaded portion and a fourth threaded portion opposite to the third threaded portion in rotation direction, the third jacket is provided with a third threaded hole matched with the third threaded portion, the fourth jacket is provided with a fourth threaded hole matched with the fourth threaded portion, and the elastic limiting structure is disposed on both the third jacket and the fourth jacket, the third clamping sleeve and the fourth clamping sleeve can be close to each other so that the elastic limiting structure can be close to the inserting cylinder, and the elastic limiting structure can be elastically abutted against the inserting cylinder and drive the inserting cylinder to be aligned with the mounting cylinder.

Preferably, the elastic limiting structure comprises an arc-shaped frame, a plurality of springs and a plurality of idler wheels, the arc-shaped frame is movably arranged on the third clamping sleeve and the fourth clamping sleeve, the idler wheels are movably arranged on the arc-shaped frame, and the springs are arranged on the arc-shaped frame and can act on the arc-shaped frame so that the idler wheels on the arc-shaped frame can elastically abut against the inserting cylinder.

Preferably, the container is mounted on the base by means of bolts.

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

after the pile body is installed at sea, the base is hung to the pile body through hoisting equipment of crane class, order about a section of thick bamboo of pegging graft on the base through stop gear and align with the installation section of thick bamboo on the pile body, the crane orders about the base and descends and passes through the positioning action of installation mechanism to a section of thick bamboo of pegging graft, make a section of thick bamboo of pegging graft can be fast and accurate peg graft accomplish base installation work in to the installation section of thick bamboo, wherein, container demountable installation is on the base, be convenient for select at land and sea installation container according to actual installation conditions, facilitate for installation work, can accomplish the installation work of platform frame on the base through pegging graft the platform frame, the effect of quick and accurate installation booster station has been had, the installation degree of difficulty of booster station has been reduced and higher installation effectiveness has.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic view of a floating frame according to an embodiment of the present invention;

FIG. 2 is a schematic view of the internal structure of the mounting barrel according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a position limiting assembly according to an embodiment of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is a schematic diagram of a position adjustment assembly according to an embodiment of the present invention;

FIG. 6 is a schematic view of the structure at the mounting mechanism in accordance with one embodiment of the present invention;

fig. 7 is a schematic view of the structure of the pile, the base and the platform according to an embodiment of the invention.

In the figure, 10-pile body; 20-mounting the cylinder; 21-mounting grooves; 22-an abutment; 23-a slot; 11-a platform frame; 12-a crane; 13-a container; 30-a base; 31-a plug-in cartridge; 311-insert column; 312-a conical section; 40-a mounting mechanism; 41-splicing arc plates; 42-installing an arc plate; 50-a limiting mechanism; 60-a floating frame; 70-a position adjustment assembly; 71-a first drive motor; 72-a first stop bar; 73-a first rotating bar; 731-first threaded portion; 732-a second threaded portion; 74-first jacket; 741-a first threaded hole; 75-a second jacket; 751-a second threaded hole; 80-a spacing assembly; 81-a second drive motor; 82-a second stop bar; 83-a second rotating rod; 831-third threaded portion; 832-fourth threaded portion; 84-third jacket; 841-third threaded hole; 85-a fourth jacket; 851-a fourth threaded hole; 90-elastic limit structure; 91-arc frame; 92-a spring; 93-roller.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

Example 1:

referring to fig. 1 to 7, the present invention provides a stable fabricated offshore booster station, including:

the pile body 10 is provided with an installation cylinder 20;

a base 30, wherein the base 30 is provided with a plug-in cylinder 31 which can be plugged in the mounting cylinder 20;

a mounting mechanism 40, wherein the mounting mechanism 40 is detachably mounted on the base 30 and can perform positioning and mounting functions on the plug-in cylinder 31;

a limiting mechanism 50, wherein the limiting mechanism 50 is used for driving the plug cylinder 31 to align with the mounting cylinder 20 and can be matched with the mounting mechanism 40 to perform positioning and mounting work on the plug cylinder 31;

the platform frame 11, the platform frame 11 is arranged on the base 30, and the crane 12 is arranged on the platform frame 11;

a plurality of containers 13, a plurality of said containers 13 being removably mounted on said base 30.

After the pile body 10 is installed on the sea, the base 30 is hung to the pile body 10 through a crane-type hoisting device, the insertion cylinder 31 on the base 30 is driven to be aligned with the installation cylinder 20 on the pile body 10 through the limiting mechanism 50, the crane drives the base 30 to descend and performs positioning action on the insertion cylinder 31 through the installation mechanism 40, the insertion cylinder 31 can be quickly and accurately inserted into the installation cylinder 20 to complete installation work of the base 30, the container 13 is detachably installed on the base 30, containers 13 can be conveniently installed on the land and on the sea according to actual installation conditions, convenience is brought to installation work, installation work of the platform frame 11 can be completed through inserting the platform frame 11 on the base 30, the effect of quickly and accurately installing the booster station is achieved, installation difficulty of the booster station is reduced, and higher installation efficiency is achieved.

Specifically, the mounting tube 20 is provided with a mounting groove 21, the insertion tube 31 is provided with an insertion column 311 for being inserted into the mounting groove 21, the insertion column 311 is provided with a conical portion 312, and the mounting tube 20 is provided with an abutting portion 22 for abutting against the insertion tube 31.

The insertion column 311 is provided, and the conical part 312 is provided on the insertion column 311 so as to provide a certain guiding function for the insertion process of the insertion cylinder 31 by the fitting installation mechanism 40.

Specifically, installation mechanism 40 includes a plurality of concatenation arc board 41 and a plurality of installation arc board 42, and a plurality of installation arc board 42 can be around forming the barrel, a plurality of installation arc board 42 can be around forming the funnel, installation arc board 42 sets up on the concatenation arc board 41, be provided with the confession on the installation section of thick bamboo 20 the slot 23 that concatenation arc board 41 was pegged graft.

Through pegging graft a plurality of concatenation arc board 41 on installation section of thick bamboo 20 and enclose into the barrel that is used for restricting the position of a grafting section of thick bamboo 31, wherein, installation arc board 42 on the concatenation arc board 41 mutually supports in order to form the funnel, does benefit to and plays certain guide effect to a grafting section of thick bamboo 31, plays certain location effect to the grafting process of a grafting section of thick bamboo 31.

Example 2:

referring to fig. 1 to 7, in combination with the technical solution of embodiment 1, in this embodiment, the limiting mechanism 50 includes a floating frame 60, a position adjusting assembly 70, and a limiting assembly 80, where the position adjusting assembly 70 and the limiting assembly 80 are both disposed on the floating frame 60, the position adjusting assembly 70 can clamp the mounting barrel 20 to adjust the position of the floating frame 60 so as to adjust the position of the limiting assembly 80, and the limiting assembly 80 can act on the plug-in barrel 31 and drive the axis of the plug-in barrel 31 to align with the axis of the mounting barrel 20.

Clamping the mounting cylinder 20 by the position adjusting assembly 70 to adjust the position of the floating frame 60 and the limiting assembly 80, acting on the insertion cylinder 31 by the limiting assembly 80 to align the axis of the insertion cylinder 31 with the axis of the mounting cylinder 20, i.e. aligning the insertion cylinder with the mounting cylinder 20, driving the base 30 down by the crane to insert the insertion cylinder 31 into the mounting cylinder 20, and positioning the insertion cylinder 31 by matching with the mounting mechanism 40 to enable the insertion cylinder 31 to be accurately butted with the mounting cylinder 20.

Specifically, the position adjustment assembly 70 includes a first driving motor 71, a first limiting rod 72, a first rotating rod 73, a first jacket 74 and a second jacket 75, the first driving motor 71 and the first limiting rod 72 are both disposed on the floating frame 60, the first jacket 74 and the second jacket 75 are both movably mounted on the first limiting rod 72, the first rotating rod 73 is rotatably mounted on the floating frame 60, the first driving motor 71 is in transmission connection with the first rotating rod 73 and can drive the first rotating rod 73 to rotate, the first rotating rod 73 is provided with a first threaded portion 731 and a second threaded portion 732 with a reverse rotation direction to the first threaded portion 731, the first jacket 74 is provided with a first threaded hole 741 engaged with the first threaded portion 731, the second jacket 75 is provided with a second threaded hole 751 engaged with the second threaded portion 732, the first jacket 74 and the second jacket 75 can be brought close to each other to clamp the mounting cylinder 20.

The first rotating rod 73 is driven to rotate by the first driving motor 71, and the first threaded part 731 and the second threaded part 732 on the first rotating rod 73 are respectively matched with the first threaded hole 741 and the second threaded hole 751 to drive the first clamping sleeve 74 and the second clamping sleeve 75 to approach each other and clamp the mounting barrel 20 to complete the position adjustment work of the floating frame 60 and the limiting assembly 80.

Specifically, the limiting assembly 80 includes a second driving motor 81, a second limiting rod 82, a second rotating rod 83, a third clamping sleeve 84, a fourth clamping sleeve 85 and an elastic limiting structure, the second driving motor 81 and the second limiting rod 82 are both disposed on the floating frame 60, the third clamping sleeve 84 and the fourth clamping sleeve 85 are both movably mounted on the second limiting rod 82, the second rotating rod 83 is rotatably mounted on the floating frame 60, the second driving motor 81 is in transmission connection with the second rotating rod 83 and can drive the second rotating rod 83 to rotate, the second rotating rod 83 is provided with a third threaded portion 831 and a fourth threaded portion 851 with a direction opposite to that of the third threaded portion 831, the third clamping sleeve 84 is provided with a third threaded hole 841 matched with the third threaded portion 831, the fourth clamping sleeve 85 is provided with a fourth threaded hole 851 matched with the fourth threaded portion 851, the third jacket 84 and the fourth jacket 85 are both provided with the elastic limiting structures, the third jacket 84 and the fourth jacket 85 can approach each other to enable the elastic limiting structures to approach the plug cylinder 31, and the elastic limiting structures can elastically abut against the plug cylinder 31 and drive the plug cylinder 31 to align with the installation cylinder 20.

The second rotating rod 83 is driven to rotate by the second driving motor 81, the third thread portion 831 and the fourth thread portion 832 on the second rotating rod 83 are respectively matched with the third thread hole 841 and the fourth thread hole 851 to drive the third jacket 84 and the fourth jacket 85 to approach each other, so that the elastic limiting structure 90 can approach and elastically abut against the plug cylinder 31, and the plug cylinder 31 is driven to align with the mounting cylinder 20, thereby completing the positioning work of the plug cylinder 31.

Specifically, the elastic limiting structure 90 includes an arc frame 91, a plurality of springs 92 and a plurality of rollers 93, the arc frame 91 is movably disposed on the third jacket 84 and the fourth jacket 85, the plurality of rollers 93 are movably mounted on the arc frame 91, and the plurality of springs 92 are mounted on the arc frame 91 and can act on the arc frame 91 so that the rollers 93 on the arc frame 91 can elastically abut against the splicing sleeve 31.

Specifically, the container 13 is mounted on the base 30 by bolts.

The foregoing is merely a preferred embodiment of the invention and is not intended to limit the invention in any manner. Those skilled in the art can make many possible variations and modifications to the disclosed solution, or modify equivalent embodiments using the teachings set forth above, without departing from the scope of the claimed solution. Therefore, any modification, equivalent change and modification made to the above embodiments according to the technology of the present invention are within the protection scope of the present invention, unless the content of the technical solution of the present invention is departed from.

Claims

1. The utility model provides a firm type assembled marine booster station which characterized in that includes:

the pile body is provided with an installation cylinder;

2. A robust fabricated offshore booster station according to claim 1, wherein:

the mounting barrel is provided with a mounting groove, the inserting barrel is provided with an inserting column which is used for being inserted into the mounting groove, the inserting column is provided with a conical part, and the mounting barrel is provided with a butting part for butting the inserting barrel.

3. A robust fabricated offshore booster station according to claim 1, wherein:

installation mechanism includes a plurality of concatenation arc board and a plurality of installation arc board, and a plurality of installation arc board can be around forming the barrel, a plurality of installation arc board can be around forming the funnel, the installation arc board sets up on the concatenation arc board, be provided with the confession on the installation section of thick bamboo the slot that concatenation arc board was pegged graft.

4. A robust fabricated offshore booster station according to claim 1, wherein:

the limiting mechanism comprises a floating frame, a position adjusting assembly and a limiting assembly, the position adjusting assembly and the limiting assembly are arranged on the floating frame, the position adjusting assembly can clamp the mounting cylinder to adjust the position of the floating frame, so that the position of the limiting assembly is adjusted, and the limiting assembly can act on the plug cylinder and drive the axis of the plug cylinder to be aligned with the axis of the mounting cylinder.

5. A robust fabricated offshore booster station according to claim 4, wherein:

the position adjusting component comprises a first driving motor, a first limiting rod, a first rotating rod, a first jacket and a second jacket, the first driving motor and the first limiting rod are both arranged on the floating frame, the first jacket and the second jacket are both movably arranged on the first limiting rod, the first rotating rod is rotatably arranged on the floating frame, the first driving motor is in transmission connection with the first rotating rod and can drive the first rotating rod to rotate, the first rotating rod is provided with a first thread part and a second thread part with the opposite turning direction of the first thread part, the first clamping sleeve is provided with a first threaded hole matched with the first threaded portion, the second clamping sleeve is provided with a second threaded hole matched with the second threaded portion, and the first clamping sleeve and the second clamping sleeve can approach each other to clamp the mounting cylinder.

6. A robust fabricated offshore booster station according to claim 4, wherein:

the limiting assembly comprises a second driving motor, a second limiting rod, a second rotating rod, a third jacket, a fourth jacket and an elastic limiting structure, the second driving motor and the second limiting rod are arranged on the floating frame, the third jacket and the fourth jacket are movably arranged on the second limiting rod, the second rotating rod is rotatably arranged on the floating frame, the second driving motor is in transmission connection with the second rotating rod and can drive the second rotating rod to rotate, the second rotating rod is provided with a third threaded part and a fourth threaded part, the rotation direction of the third threaded part is opposite to that of the fourth threaded part, the third jacket is provided with a third threaded hole matched with the third threaded part, the fourth jacket is provided with a fourth threaded hole matched with the fourth threaded part, and the elastic limiting structure is arranged on the third jacket and the fourth jacket, the third clamping sleeve and the fourth clamping sleeve can be close to each other so that the elastic limiting structure can be close to the inserting cylinder, and the elastic limiting structure can be elastically abutted against the inserting cylinder and drive the inserting cylinder to be aligned with the mounting cylinder.

7. A robust fabricated offshore booster station according to claim 6, wherein:

the elastic limiting structure comprises an arc-shaped frame, a plurality of springs and a plurality of idler wheels, the arc-shaped frame is movably arranged on the third clamping sleeve and the fourth clamping sleeve, the idler wheels are movably arranged on the arc-shaped frame, and the springs are arranged on the arc-shaped frame and can act on the arc-shaped frame so that the idler wheels on the arc-shaped frame can elastically abut against the inserting cylinder.

8. A robust fabricated offshore booster station according to claim 1, wherein:

the container is mounted on the base in a bolt connection mode.