CN216408465U - Seawater flow velocity monitoring device - Google Patents

Abstract

The utility model discloses a seawater flow velocity monitoring device which comprises two sleeves positioned on a ship body, wherein the two sleeves are rotatably connected with a mounting plate, the side wall of each sleeve is fixedly connected with a fixed block, the side wall of each fixed block is connected with a fixing mechanism, the side wall of each mounting plate is provided with a groove body, a lifting mechanism is arranged in each groove body and connected with a sliding block, and the sliding block is in sliding connection with the inner wall of each groove body. The seawater flow velocity detection device is reasonable in structure, the flow velocity of seawater at different depths can be detected by arranging the lifting mechanism and the detection mechanism, more accurate data can be obtained, an operator does not need to be close to the sea surface during measurement, and the safety of the operator is guaranteed; through setting up stop gear, when the device does not use, can fix it for the device remains stable at the hull navigation in-process, through setting up carousel and bracing piece, can adjust the angle of box, is convenient for test the speed to the sea water of equidirectional.

Description

Seawater flow velocity monitoring device

Technical Field

The utility model relates to the technical field of seawater flow velocity monitoring, in particular to a seawater flow velocity monitoring device.

Background

The flow velocity of seawater, i.e. the distance that the seawater moves in a unit time, is one of two factors determining the flow property of the seawater, and has an important influence on offshore operation and underwater operation.

At present, the flow velocity of the seawater is measured by using a current meter, but the current meter cannot conveniently measure the flow velocity of the seawater at different depths, so that a device capable of conveniently measuring the flow velocity of the seawater at different depths is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art and provides a seawater flow velocity monitoring device.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a sea water velocity of flow monitoring devices, is including being located two sleeves on the hull, two the sleeve rotates and is connected with the mounting panel, sleeve lateral wall fixedly connected with fixed block, the fixed block lateral wall is connected with fixed establishment, the mounting panel lateral wall is equipped with the cell body, be equipped with elevating system in the cell body, elevating system is connected with the slider, slider and cell body inner wall sliding connection, slider lateral wall fixedly connected with connecting rod, the connecting rod lower extreme is connected with detection mechanism, two spinal branch vaulting poles of mounting panel upper end fixedly connected with carousel, hull lateral wall fixedly connected with device piece, device piece lateral wall is connected with stop gear.

Preferably, the fixing mechanism comprises a first bolt positioned on the side wall of the fixing block, and the side wall of the ship body is provided with a plurality of first thread grooves matched with the first bolt.

Preferably, elevating system include with mounting panel upper end fixed connection's driving motor, driving motor's output extends to in the cell body and fixedly connected with threaded rod, threaded rod and slider threaded connection.

Preferably, detection mechanism includes the box with connecting rod lower extreme fixed connection, the relative inner wall of box rotates and is connected with the pivot, the pivot end extends to outside the box and a plurality of flabellums of fixedly connected with, the box inner wall is equipped with speed sensor, the box lower extreme rotates and is connected with the commentaries on classics board, it is equipped with sealed the pad to change board upper end, it is equipped with the second bolt to change board lower extreme, the box lateral wall be equipped with second bolt complex second thread groove.

Preferably, stop gear is including the bolt that is located the device piece lateral wall, the cover is equipped with the spring on the bolt, the mounting panel lateral wall be equipped with bolt complex slot.

Preferably, the mounting plate is cylindrical.

Compared with the prior art, the utility model has the beneficial effects that:

1. through setting up elevating system and detection mechanism, can detect the velocity of flow of different degree of depth sea water, be favorable to deriving more accurate data, and operating personnel need not to be close to the sea when measuring, has guaranteed operating personnel's safety.

2. Through setting up stop gear, when the device does not use, can fix it for the device remains stable at the hull navigation in-process, through setting up carousel and bracing piece, can adjust the angle of box, is convenient for test the speed to the sea water of equidirectional.

Drawings

Fig. 1 is a schematic structural diagram of a seawater flow velocity monitoring device according to the present invention;

fig. 2 is an enlarged schematic view of a structure at a position a of the seawater flow velocity monitoring device according to the present invention;

fig. 3 is an enlarged schematic view of a structure at a position B of the seawater flow velocity monitoring device according to the present invention.

In the figure: the device comprises a ship body 1, supporting rods 2, a rotary table 3, a driving motor 4, a sleeve 5, a fixed block 6, a mounting plate 7, a groove body 8, a threaded rod 9, a sliding block 10, a connecting rod 11, a rotating plate 12, fan blades 13, a rotating shaft 14, a bolt 15, a device block 16, a slot 17, a first bolt 18, a sealing gasket 19, a second threaded groove 20, a second bolt 21, a box body 22 and a rotating speed sensor 23.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present invention is capable of modification in various respects, all without departing from the spirit and scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1-3, a seawater flow velocity monitoring device, includes two sleeves 5 that are located on hull 1, and two sleeves 5 rotate and are connected with mounting panel 7, and mounting panel 7 is cylindrical, and sleeve 5 lateral wall fixedly connected with fixed block 6, and the 6 lateral walls of fixed block are connected with fixed establishment, and fixed establishment is including being located the first bolt 18 of 6 lateral walls of fixed block, and hull 1 lateral wall is equipped with a plurality of first thread grooves with first bolt 18 complex.

7 lateral walls of mounting panel are equipped with cell body 8, be equipped with elevating system in the cell body 8, elevating system include with 7 upper end fixed connection's of mounting panel driving motor 4, driving motor 4's output extends to in the cell body 8 and fixedly connected with threaded rod 9, threaded rod 9 and slider 10 threaded connection, when needs highly adjust box 22, open driving motor 4, driving motor 4 drives threaded rod 9 and rotates, threaded rod 9 drives the vertical downstream of slider 10, slider 10 drives the vertical downstream of connecting rod 11, connecting rod 11 drives the vertical downstream of box 22.

Elevating system is connected with slider 10, slider 10 and 8 inner wall sliding connection of cell body, slider 10 lateral wall fixedly connected with connecting rod 11, 11 lower extremes of connecting rod are connected with detection mechanism, detection mechanism includes the box 22 with 11 lower extreme fixed connection of connecting rod, the relative inner wall of box 22 rotates and is connected with pivot 14, 14 end extensions of pivot 22 are outside and a plurality of flabellum 13 of fixedly connected with, the box 22 inner wall is equipped with speed sensor 23, speed sensor 23 can measure the 14 rotational speed of pivot, the box 22 lower extreme rotates and is connected with commentaries on classics board 12, commentaries on classics board 12 upper end is equipped with sealed 19, commentaries on classics board 12 lower extreme is equipped with second bolt 21, the box 22 lateral wall be equipped with second bolt 21 complex second thread groove 20.

Two spinal branch vaulting poles 2 of fixedly connected with in 7 upper ends of mounting panel, 2 upper ends of two spinal branch vaulting poles fixedly connected with carousel 3 rotate carousel 3, but the angle of regulation box 22 is convenient for test the speed to the ocean current of equidirectional, 1 lateral wall fixedly connected with device piece 16 of hull, 16 lateral walls of device piece are connected with stop gear, stop gear is including the bolt 15 that is located 16 lateral walls of device piece, the cover is equipped with the spring on the bolt 15, 7 lateral walls of mounting panel be equipped with 15 complex slots 17 of bolt.

When the seawater flow velocity detection device is used, when seawater flow velocity detection is required, the driving motor 4 is started, the driving motor 4 drives the threaded rod 9 to rotate, the threaded rod 9 drives the sliding block 10 to vertically move downwards, the sliding block 10 drives the connecting rod 11 to vertically move downwards, the connecting rod 11 drives the box body 22 to vertically move downwards, the box body 22 enters water, water flow drives the fan blade 13 to rotate, the fan blade 13 drives the rotating shaft 14 to rotate, the rotating speed sensor 23 measures the rotating speed of the rotating shaft 14, the flow velocity of seawater is calculated through the rotating speed of the rotating shaft 14, when the flow velocity of seawater at different depths is required to be measured, the driving motor 4 is started, the box body 22 continues to move downwards, the flow velocity of seawater at different depths can be obtained, when the flow velocity of seawater at different directions is required to be measured, the bolt 15 is pulled up, the rotating disc 3 is rotated, the rotating disc 3 drives the supporting rod 2 to rotate, the supporting rod 2 drives the mounting plate 7 to rotate, and the box body 22 rotates along with the seawater flow velocity, the speed measurement can be carried out on the seawater in different directions.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The seawater flow velocity monitoring device comprises two sleeves (5) positioned on a ship body (1), and is characterized in that the two sleeves (5) are rotatably connected with a mounting plate (7), the side wall of each sleeve (5) is fixedly connected with a fixing block (6), the side wall of each fixing block (6) is connected with a fixing mechanism, the side wall of each mounting plate (7) is provided with a groove body (8), a lifting mechanism is arranged in each groove body (8), the lifting mechanism is connected with a sliding block (10), the sliding block (10) is in sliding connection with the inner wall of each groove body (8), the side wall of each sliding block (10) is fixedly connected with a connecting rod (11), the lower end of each connecting rod (11) is connected with a detection mechanism, the upper end of each mounting plate (7) is fixedly connected with two supporting rods (2), the upper ends of the supporting rods (2) are fixedly connected with a rotary disc (3), and the side wall of the ship body (1) is fixedly connected with a device block (16), the side wall of the device block (16) is connected with a limiting mechanism.

2. A seawater flow rate monitoring device according to claim 1, wherein the fixing mechanism comprises a first bolt (18) positioned on the side wall of the fixing block (6), and the side wall of the ship body (1) is provided with a plurality of first thread grooves matched with the first bolt (18).

3. The seawater flow velocity monitoring device according to claim 1, wherein the lifting mechanism comprises a driving motor (4) fixedly connected with the upper end of the mounting plate (7), the output end of the driving motor (4) extends into the tank body (8) and is fixedly connected with a threaded rod (9), and the threaded rod (9) is in threaded connection with the sliding block (10).

4. The seawater flow velocity monitoring device according to claim 1, wherein the detection mechanism comprises a box body (22) fixedly connected with the lower end of the connecting rod (11), the box body (22) is rotatably connected with a rotating shaft (14) relative to the inner wall, the end of the rotating shaft (14) extends out of the box body (22) and is fixedly connected with a plurality of fan blades (13), a rotating speed sensor (23) is arranged on the inner wall of the box body (22), a rotating plate (12) is rotatably connected with the lower end of the box body (22), a sealing gasket (19) is arranged at the upper end of the rotating plate (12), a second bolt (21) is arranged at the lower end of the rotating plate (12), and a second thread groove (20) matched with the second bolt (21) is arranged on the side wall of the box body (22).

5. The seawater flow velocity monitoring device according to claim 1, wherein the limiting mechanism comprises a bolt (15) arranged on the side wall of the device block (16), a spring is sleeved on the bolt (15), and a slot (17) matched with the bolt (15) is arranged on the side wall of the mounting plate (7).

6. A seawater flow rate monitoring device as claimed in claim 1, wherein the mounting plate (7) is cylindrical.

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