CN218911547U - Marine wind power corrosion monitoring device - Google Patents

Abstract

The utility model discloses an offshore wind power corrosion monitoring device, which relates to the technical field of offshore wind power, and particularly relates to an offshore wind power corrosion monitoring device. This marine wind power corrosion monitoring device, through the setting of second support square pole and spacing ring, make this marine wind power corrosion monitoring device possess the effect that increases the stationarity when supporting disk rotates, through the cooperation setting of back shaft, first half rectangular section of thick bamboo and first support longeron, reached the mesh of easy to assemble, through the setting of fourth spacing longeron, make this marine wind power corrosion monitoring device possess the effect that prevents sixth support longeron from sliding out in the first support rectangular section of thick bamboo, through the cooperation setting of first support rectangular section of thick bamboo, second support longeron and sixth support longeron, reached the purpose of convenient monitoring.

Description

Marine wind power corrosion monitoring device

Technical Field

The utility model relates to the technical field of offshore wind power, in particular to an offshore wind power corrosion monitoring device.

Background

The offshore wind power is characterized in that the wind driven generator utilizes offshore wind power resources to generate electricity, is a sustainable new energy source, is beneficial to reducing the use of fossil energy sources, improves the environment, cannot be directly fixed in sea water in the process of fixing the wind driven generator on the sea, a foundation column is fixed in the sea water, the wind driven generator is fixed through the foundation column, and in the severe offshore environment, the possibly generated wrapped salt is lost under the action of flowing sea, so that the foundation column in the sea water has higher corrosion efficiency than that in dry air, and in order to ensure the safety of the wind driven generator, the offshore wind power corrosion is tracked and checked, so that the offshore wind power corrosion monitoring device is needed.

Although the corrosion monitoring device for the offshore wind power single pile foundation disclosed in the chinese patent application publication CN 215053308U can be convenient for adjusting the fixed depth of the equipment, in the use process, the corrosion monitoring device for the offshore wind power single pile foundation is difficult to firmly install with the offshore wind power foundation, so that the installation difficulty is increased due to the fact that the corrosion monitoring device is easy to fall off from the offshore wind power foundation, and the corrosion monitoring of the offshore wind power is difficult to be carried out at different positions, so that the monitoring difficulty is easily increased due to the fact that the monitoring requirement cannot be met.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides an offshore wind power corrosion monitoring device, which solves the problems in the background art.

(II) technical scheme

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides an offshore wind power corrosion monitoring device, includes first offshore wind power foundation post, the half rectangular section of thick bamboo of second and first offshore wind power corrosion monitor, the lateral surface of the half rectangular section of thick bamboo of second is provided with first half rectangular section of thick bamboo, one side threaded connection of first half rectangular section of thick bamboo has the back shaft, the one end of back shaft is provided with the supporting disk, the other end of back shaft rotates and is connected with the third spacing longeron, one side of third spacing longeron is provided with the second support square pole, the third spacing longeron cooperates with first offshore wind power foundation post, third spacing longeron and the half rectangular section of thick bamboo sliding connection of second, second support square pole and the half rectangular section of thick bamboo sliding connection of first half, the supporting disk rotates with first half rectangular section of thick bamboo to be connected, one side of the half rectangular section of thick bamboo of second is provided with first support longeron, the quantity of first half rectangular section of thick bamboo and first support longeron is two, one side sliding connection of first spacing longeron has first spacing longeron, the top of first spacing longeron has first spacing longeron, first rectangular section of thick bamboo and first movable connection of thick bamboo, first limit connection first limit longeron and first movable connection limit support square; the outer surface of the second semi-rectangular cylinder is provided with a first supporting rectangular cylinder, the inside of the first supporting rectangular cylinder is provided with a fourth supporting long plate, one side of the first offshore wind power corrosion monitor is provided with a sixth supporting long plate, a plurality of third limit grooves are formed in the upper surface of the sixth supporting long plate, a first rectangular plate is arranged on the outer surface of one side of the first offshore wind power corrosion monitor, a second supporting long plate is arranged on one side of the first rectangular plate, the second supporting long plate is in sliding connection with the first supporting rectangular cylinder, the sixth supporting long plate is in sliding connection with the fourth supporting long plate, a third limit column is connected with the top thread of the first supporting rectangular cylinder, and the third limit column is in threaded connection with the third limit grooves.

Optionally, one side of supporting disk is provided with the second support column, the quantity of second support column is two, one side of back shaft is provided with the toper post, the toper post rotates with the third spacing longboard and is connected.

Optionally, one end of the second support square rod is provided with a limiting ring, the support disc is rotationally connected with the limiting ring, and the first support long plate is fixedly connected with the first half rectangular cylinder.

Optionally, the first limiting long plate penetrates through the first supporting long plate, a first supporting square rod is arranged on one side of the first limiting long plate, and the first supporting square rod is movably connected with a first half rectangular cylinder.

Optionally, the back shaft runs through in a half rectangular section of thick bamboo, first spacing post runs through in a first support longeron, the top of first spacing post is provided with first support column.

Optionally, the first marine wind power corrosion monitor is connected with power electricity, the side of second support longeron is provided with the spacing longeron of second, the spacing longeron of second and the rectangular section of thick bamboo sliding connection of first support.

Optionally, a fourth limiting long plate is arranged on the side face of the sixth supporting long plate, and the fourth limiting long plate is in sliding connection with the fourth supporting long plate.

Optionally, the third spacing post runs through in first support rectangular section of thick bamboo, the top of third spacing post is provided with the third support column.

(III) beneficial effects

The utility model provides an offshore wind power corrosion monitoring device, which has the following beneficial effects:

1. this marine wind power corrosion monitoring device, through the setting of second support square pole and spacing ring, make this marine wind power corrosion monitoring device possess the effect that increases the stationarity when supporting disk rotates, through the cooperation setting of back shaft, first half rectangular section of thick bamboo and first support longeron, can make first spacing longeron and second half rectangular section of thick bamboo all encircle the surface at first marine wind power foundation post in the in-process of using, and can make the third spacing longeron enter into in the first marine wind power foundation post, thereby play the effect of firm installation between indirect messenger first marine wind power corrosion monitor and the first marine wind power foundation post, and then played the effect that makes first marine wind power corrosion monitor avoid droing and increasing the installation degree of difficulty because of easily from first marine wind power foundation post, the purpose of easy installation has been reached.

2. This marine wind power corrosion monitoring device, through the setting of the spacing longeron of fourth, make this marine wind power corrosion monitoring device possess the effect that prevents sixth support longeron from sliding out in the first support rectangle section of thick bamboo, through the cooperation setting of first support rectangle section of thick bamboo, second support longeron and sixth support longeron, can indirectly adjust the distance between first marine wind power corrosion monitor and the first marine wind power foundation post in the in-process of using, thereby play the effect that makes first marine wind power corrosion monitor carry out marine wind power corrosion monitoring in different positions, and then played the effect that makes first marine wind power corrosion monitor avoid increasing the monitoring degree of difficulty because of unable monitoring demand that satisfies, reached convenient monitoring's purpose.

Drawings

FIG. 1 is a schematic front perspective view of the present utility model;

FIG. 2 is a schematic view of a first front view partially in cross-section of the present utility model;

FIG. 3 is a schematic view of a second front view partially in cross-section of the present utility model;

FIG. 4 is an enlarged schematic view of a top view, partially in section, of the present utility model;

FIG. 5 is a schematic view of a first side view, partially in section, of the structure of the present utility model;

FIG. 6 is a schematic view of a second side view, partially in cross-section, of the present utility model;

fig. 7 is an enlarged schematic view of the structure of fig. 6 a according to the present utility model.

In the figure: 1. a first offshore wind farm foundation column; 2. a first half rectangular cylinder; 3. a first support long plate; 4. a first limit long plate; 5. a support plate; 6. a first support square bar; 7. a first support rectangular cylinder; 8. a first rectangular long plate; 9. a first offshore wind corrosion monitor; 10. the third limit column; 11. a second semi-rectangular cylinder; 12. a sixth support long plate; 13. a third limit groove; 14. a second support long plate; 15. the second limiting long plate; 16. a support shaft; 17. a second support square bar; 18. a tapered column; 19. a third limiting long plate; 20. a fourth support long plate; 21. a fourth limiting long plate; 22. a limiting ring; 23. a first limit groove; 24. a first limit post; 25. a first support column; 26. a second support column; 27. and a third support column.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Example 1

Referring to fig. 1 to 7, the present utility model provides the following technical solutions: the marine wind power corrosion monitoring device comprises a first marine wind power foundation column 1 and a second half rectangular cylinder 11, wherein the outer side surface of the second half rectangular cylinder 11 is provided with a first half rectangular cylinder 2, one side of the first half rectangular cylinder 2 is in threaded connection with a support shaft 16, one end of the support shaft 16 is provided with a support disc 5, the other end of the support shaft 16 is rotationally connected with a third limiting long plate 19, one side of the third limiting long plate 19 is provided with a second supporting square rod 17, the third limiting long plate 19 is mutually matched with the first marine wind power foundation column 1, the third limiting long plate 19 is in sliding connection with the second half rectangular cylinder 11, the second supporting square rod 17 is in sliding connection with the first half rectangular cylinder 2, the support disc 5 is rotationally connected with the first half rectangular cylinder 2, one side of the second half rectangular cylinder 11 is provided with a first supporting long plate 3, the number of the first half rectangular cylinder 2 and the first supporting long plate 3 is two, one side of a first support long plate 3 is slidably connected with a first limit long plate 4, two first limit grooves 23 are formed in the top of the first limit long plate 4, the first limit long plate 4 is movably connected with the other first support long plate 3, a first half rectangular cylinder 2, the first support long plate 3, the first limit long plate 4 and a second half rectangular cylinder 11 are movably connected with a first offshore wind power foundation column 1, a first limit column 24 is in threaded connection with the top of the first support long plate 3, the first limit column 24 is in threaded connection with the first limit groove 23, one side of a support disc 5 is provided with a second support column 26, the number of the second support columns 26 is two, one side of a support shaft 16 is provided with a conical column 18, the conical column 18 is rotatably connected with a third limit long plate 19, one end of a second support square rod 17 is provided with a limit ring 22, the support disc 5 is rotatably connected with the limit ring 22, the first long support plate 3 is fixedly connected with the first half rectangular cylinder 2, the first limiting long plate 4 penetrates through the first long support plate 3, a first supporting square rod 6 is arranged on one side of the first limiting long plate 4, the first supporting square rod 6 is movably connected with the first half rectangular cylinder 2, the supporting shaft 16 penetrates through the first half rectangular cylinder 2, the first limiting column 24 penetrates through the first long support plate 3, and a first supporting column 25 is arranged at the top of the first limiting column 24.

When in use, before the first offshore wind power corrosion monitor 9 monitors the offshore wind power corrosion, the first offshore wind power corrosion monitor 9 is moved, the second half rectangular cylinder 11 is wound on the outer surface of the first offshore wind power foundation column 1, the first offshore wind power corrosion monitor 9 is moved along the first offshore wind power foundation column 1, the second half rectangular cylinder 11, the first half rectangular cylinder 2 and the first limiting long plate 4 slide along the first offshore wind power foundation column 1, when the matching positions of the third limiting long plate 19 and the first offshore wind power foundation column 1 are mutually corresponding, the state of the second half rectangular cylinder 11 is kept unchanged, the two second support columns 26 are rotated, the support disc 5 is respectively rotated along the limiting ring 22 and the second support square rod 17, the second support square rod 17 and the limiting ring 22 can increase the stability of the support disc 5 during rotation, the support shaft 16 and the conical column 18 are respectively rotated along the third limiting long plate 19, the support shaft 16 is rotated along the first half rectangular cylinder 2 and moves towards the direction approaching the first offshore wind power foundation column 1, the third limiting long plate 19 slides along the second half rectangular cylinder 11, the second supporting square rod 17 slides along the first half rectangular cylinder 2, when the third limiting long plate 19 enters the first offshore wind power foundation column 1, the first supporting column 25 is rotated, the first limiting column 24 is disconnected with one first limiting groove 23, the first supporting square rod 6 is pushed, the first limiting long plate 4 slides along one first supporting long plate 3, when the first limiting long plate 4 enters the other first supporting long plate 3, the first limiting column 24 corresponds to the other first limiting groove 23, the first limiting column 24 is in threaded connection with the other first limiting groove 23, the first limiting long plate 4 surrounds the outer surface of the first offshore wind power foundation column 1, the first offshore wind power corrosion monitor 9 can be installed on the first offshore wind power foundation column 1 at this moment, in the process of installing the first offshore wind power corrosion monitor 9 on the first offshore wind power foundation column 1, the first offshore wind power corrosion monitor 9 and the first offshore wind power foundation column 1 can be indirectly and firmly installed, the first offshore wind power corrosion monitor 9 can be prevented from being easily fallen off from the first offshore wind power foundation column 1 to increase the installation difficulty, the device can be conveniently installed, after that, the first offshore wind power corrosion monitor 9 is started, and at this moment, the offshore wind power corrosion can be monitored through the first offshore wind power corrosion monitor 9.

Example 2

Referring to fig. 1 to 7, the present utility model provides the following technical solutions: the utility model provides an offshore wind power corrosion monitoring device, including the half rectangular section of thick bamboo 11 of second and the first offshore wind power corrosion monitoring appearance 9, the surface of the half rectangular section of thick bamboo 11 of second is provided with first support rectangular section of thick bamboo 7, the inside of the first support rectangular section of thick bamboo 7 is provided with fourth support rectangular plate 20, one side of the first offshore wind power corrosion monitoring appearance 9 is provided with sixth support rectangular plate 12, a plurality of third spacing groove 13 has been seted up to the upper surface of sixth support rectangular plate 12, one side surface of the first offshore wind power corrosion monitoring appearance 9 is provided with first rectangular plate 8, one side of first rectangular plate 8 is provided with second support rectangular plate 14, second support rectangular plate 14 and first support rectangular section of thick bamboo 7 sliding connection, sixth support rectangular plate 12 and fourth support rectangular plate 20 sliding connection, the top threaded connection of first support rectangular barrel 7 has third spacing post 10, third spacing post 10 and third spacing groove 13 threaded connection, first offshore wind power corrosion monitoring appearance 9 and power electrical connection, the side of second support rectangular plate 14 is provided with second rectangular plate 15, one side of first rectangular plate 15 and fourth support rectangular plate 21 sliding connection rectangular plate 10, fourth support rectangular plate 21 sliding connection rectangular plate 10 has third spacing post 10.

During the use, in the in-process of monitoring the marine wind power corrosion through first marine wind power corrosion monitor 9, rotate third support column 27, make third spacing post 10 and a third spacing groove 13 break away from the connection, move first marine wind power corrosion monitor 9 to the left, make sixth support longeron 12 and fourth spacing longeron 21 all slide along fourth support longeron 20, second support square pole 17 and second spacing longeron 15 all slide along first support rectangular section of thick bamboo 7, fourth spacing longeron 21 can prevent that sixth support longeron 12 from sliding out from first support rectangular section of thick bamboo 7, when third spacing post 10 and another third spacing groove 13 are mutually corresponding, make third spacing post 10 and another third spacing groove 13 threaded connection, make the distance between first marine wind power corrosion monitor 9 and the first marine wind power foundation post 1 indirectly adjusted, in this process, first marine wind power corrosion monitor 9 can monitor the marine corrosion monitor at different positions, make the first marine wind power corrosion monitor 9 can not satisfy the monitoring device because of the monitoring degree of difficulty can not be convenient.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides an offshore wind power corrosion monitoring device, includes first offshore wind power foundation post, the half rectangular section of thick bamboo of second and first offshore wind power corrosion monitor, its characterized in that: the outer side surface of the second half rectangular cylinder is provided with a first half rectangular cylinder, one side of the first half rectangular cylinder is connected with a supporting shaft, one end of the supporting shaft is provided with a supporting disc, the other end of the supporting shaft is rotationally connected with a third limiting long plate, one side of the third limiting long plate is provided with a second supporting square rod, the third limiting long plate is mutually matched with a first offshore wind power foundation column, the third limiting long plate is in sliding connection with the second half rectangular cylinder, the second supporting square rod is in sliding connection with the first half rectangular cylinder, the supporting disc is rotationally connected with the first half rectangular cylinder, one side of the second half rectangular cylinder is provided with a first supporting long plate, the number of the first half rectangular cylinder and the first supporting long plate is two, one side of one first supporting long plate is in sliding connection with a first limiting long plate, the top of the first limiting long plate is provided with two first limiting grooves, the first limiting long plate is movably connected with the other first supporting long plate, the first half rectangular cylinder, the first supporting long plate and the first limiting long plate and the second half rectangular cylinder are both in sliding connection with the first offshore wind power foundation column, the first limiting long plate is movably connected with the first limiting long column, and the first limiting threads are connected with the first limiting long column; the outer surface of the second half rectangular cylinder is provided with a first support rectangular cylinder, the inside of the first support rectangular cylinder is provided with a fourth support rectangular plate, one side of the first marine wind power corrosion monitor is provided with a sixth support rectangular plate, a plurality of third limit grooves are formed in the upper surface of the sixth support rectangular plate, one side outer surface of the first marine wind power corrosion monitor is provided with a first rectangular plate, one side of the first rectangular plate is provided with a second support rectangular plate, the second support rectangular plate is in sliding connection with the first support rectangular cylinder, the sixth support rectangular plate is in sliding connection with the fourth support rectangular plate, the top threaded connection of the first support rectangular cylinder is provided with a third limit post, and the third limit post is in threaded connection with the third limit groove.

2. An offshore wind power corrosion monitoring device according to claim 1, wherein: one side of the supporting disc is provided with two second supporting columns, one side of the supporting shaft is provided with a conical column, and the conical column is rotationally connected with a third limiting long plate.

3. An offshore wind power corrosion monitoring device according to claim 1, wherein: one end of the second support square rod is provided with a limiting ring, the support disc is rotationally connected with the limiting ring, and the first support long plate is fixedly connected with the first half rectangular cylinder.

4. An offshore wind power corrosion monitoring device according to claim 1, wherein: the first limiting long plate penetrates through the first supporting long plate, a first supporting square rod is arranged on one side of the first limiting long plate, and the first supporting square rod is movably connected with a first half rectangular cylinder.

5. An offshore wind power corrosion monitoring device according to claim 1, wherein: the back shaft runs through in first half rectangular section of thick bamboo, and first spacing post runs through in a first support longeron, and the top of first spacing post is provided with first support column.

6. An offshore wind power corrosion monitoring device according to claim 1, wherein: the first marine wind power corrosion monitor is electrically connected with a power supply, a second limiting long plate is arranged on the side face of the second supporting long plate, and the second limiting long plate is in sliding connection with the first supporting rectangular cylinder.

7. An offshore wind power corrosion monitoring device according to claim 1, wherein: the side of the sixth support long plate is provided with a fourth limit long plate, and the fourth limit long plate is in sliding connection with the fourth support long plate.

8. An offshore wind power corrosion monitoring device according to claim 1, wherein: the third spacing post runs through in first support rectangular section of thick bamboo, and the top of third spacing post is provided with the third support column.

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