CN210514355U - Seabed ocean current speed measuring device - Google Patents

Abstract

The utility model discloses a submarine ocean current speed measuring device, which comprises a measuring boat, cables, a fixed anchor and ocean current flow velocity detectors, the submarine ocean current speed measuring device is provided with a take-up and pay-off reel by rotating inside a cable take-up and pay-off room, the cables are wound on the take-up and pay-off reel, the end parts of the cables are fixedly provided with the fixed anchors, two cables are sleeved with sliding sleeves, the sliding sleeves are fixedly connected with a sinking plate through fixed rods, a plurality of ocean current flow velocity detectors are fixedly arranged below the sinking plate, a rack is fixedly arranged above the sinking plate, one side of the rack is fixedly provided with a second motor, a gear is fixedly arranged on the output end of the second motor and meshed with the rack, the depth of the detectors can be flexibly adjusted according to actual needs so as to measure the ocean current flow velocities of different depths, meanwhile, at least three groups of ocean current flow velocity detectors are arranged, the average number of results measured by, further improving the accuracy of measurement and being beneficial to popularization and promotion.

Description

Seabed ocean current speed measuring device

Technical Field

The utility model relates to an ocean engineering technology field, in particular to seabed ocean current speed sensor.

Background

Ocean currents refer to relatively stable flows of ocean surface seawater in a certain direction on a large scale throughout the year. Ocean currents are the primary regulators of the thermal environment on the earth's surface. Ocean currents can be divided into warm and cold currents. If the water temperature of the ocean current is higher than that of the water reaching the sea area, the ocean current is called warm current; if the temperature of the ocean current is lower than the temperature of the water reaching the sea, it is called cold current. Generally, ocean currents flowing from a low latitude to a high latitude are warm currents, and ocean currents flowing from a high latitude to a low latitude are cold currents. The seagoing vessel sails along the ocean current, so that the fuel can be saved and the speed can be increased. When warm and cold flows meet, sea fog is often formed, which is unfavorable for marine navigation. In addition, ocean currents carry the ice mountain from the north to the south, and great threats are caused to marine shipping.

At present, offshore ocean current flow velocity detection is basically that workers take small ships to carry out on-site measurement, however, the adjustment of the position of a detector in the measurement process is very inconvenient, the detector cannot be accurately lowered to a specified position, and in addition, the measurement is carried out by only using a single detector, so that deviation is easy to occur, and therefore, a submarine ocean current velocity measuring device is needed to be designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a seabed ocean current speed sensor can effectively solve the problem among the background art.

In order to realize the purpose, the technical scheme adopted by the utility model is as follows:

a seabed ocean current speed measuring device comprises a measuring ship, cables, a fixed anchor and ocean current flow velocity detectors, wherein cable winding and unwinding chambers are fixedly arranged on the front side and the rear side of the measuring ship, winding and unwinding reels are rotatably arranged in the cable winding and unwinding chambers, the cables are wound on the winding and unwinding reels, one ends of the winding and unwinding reels are connected with the output end of a first motor through a transmission belt, the first motor is fixedly arranged in the measuring ship, the fixed anchor is fixedly arranged at the end part of each cable, a sliding sleeve is sleeved on each cable, the sliding sleeve is fixedly connected with a sinking plate through a fixing rod, a plurality of ocean current flow velocity detectors are fixedly arranged below the sinking plate, a rack is fixedly arranged above the sinking plate, a second motor is fixedly arranged on one side of the rack, a gear is fixedly arranged at the output end of the second motor, and the gear is meshed with the rack, the ocean current velocity of flow detector is last to be fixed and to be provided with waterproof shell, the fixed control chip that is provided with in inside of waterproof shell, the fixed wireless communication module that is provided with in one side of control chip, the fixed briquetting that is provided with in inside of waterproof shell, one side of briquetting is fixed and is provided with pressure sensor, the briquetting passes through the connecting rod and is connected with the suspension body.

As the utility model discloses a preferred technical scheme, gear and rack contact department and connecting rod and waterproof case contact department all are provided with seal structure.

As a preferable technical solution of the present invention, the ocean current flow velocity detector is provided with at least three groups.

As an optimal technical scheme of this utility model, the fixed hole of permeating water that is provided with on the sunken board.

As a preferred technical scheme of this utility model, the bottom of anchor is the circular cone type.

As a preferable technical means of the present invention, the outer surface of the ocean current velocity detector is subjected to rust-proof and corrosion-proof treatment.

Compared with the prior art, this practicality has following beneficial effect: the utility model has the advantages that the cable winding and unwinding chambers are fixedly arranged at the front side and the rear side of the measuring ship, the winding and unwinding shafts are rotatably arranged in the cable winding and unwinding chambers, the cables are wound on the winding and unwinding shafts, the end parts of the cables are fixedly provided with the fixed anchors, the two cables are sleeved with the sliding sleeves, the sliding sleeves are fixedly connected with the sinking plates through the fixed rods, the plurality of ocean current flow velocity detectors are fixedly arranged below the sinking plates, the racks are fixedly arranged above the sinking plates, one sides of the racks are fixedly provided with the second motors, the output ends of the second motors are fixedly provided with the gears which are meshed with the racks, the depth of the detectors can be flexibly adjusted according to actual requirements, so that the ocean current flow velocities at different depths can be measured, meanwhile, the ocean current flow velocity detectors are at least provided with three groups, the average number of the results measured by the three groups of ocean current flow velocity, is beneficial to popularization and promotion.

Drawings

Fig. 1 is a schematic overall structure diagram of a device for measuring ocean current velocity according to the present invention;

fig. 2 is a schematic structural diagram of an ocean current velocity detector of a seabed ocean current velocity measuring device according to the present invention;

in the figure: 1. a survey vessel; 2. a cable take-up and pay-off chamber; 3. reeling and unreeling the reel; 4. a cable; 5. fixing an anchor; 6. a sliding sleeve; 7. fixing the rod; 8. sinking the plate; 9. an ocean current flow velocity detector; 10. a rack; 11. a first motor; 12. a second motor; 13. a gear; 14. a drive belt; 15. a waterproof housing; 16. a control chip; 17. a wireless communication module; 18. briquetting; 19. a pressure sensor; 20. a connecting rod; 21. a suspension.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described below by combining with the specific embodiments.

As shown in fig. 1-2, a seabed ocean current speed measuring device comprises a measuring vessel 1, cables 4, a fixed anchor 5 and an ocean current velocity detector 9, wherein cable winding and unwinding chambers 2 are fixedly arranged on the front and rear sides of the measuring vessel 1, a winding and unwinding reel 3 is rotatably arranged in the cable winding and unwinding chamber 2, the cables 4 are wound on the winding and unwinding reel 3, one end of the winding and unwinding reel 3 is connected with the output end of a first motor 11 through a transmission belt 14, the first motor 11 is fixedly arranged in the measuring vessel 1, the end part of each cable 4 is fixedly provided with the fixed anchor 5, two cables 4 are sleeved with sliding sleeves 6, the sliding sleeves 6 are fixedly connected with a lower sinking plate 8 through fixing rods 7, a plurality of ocean current velocity detectors 9 are fixedly arranged below the lower sinking plate 8, a rack 10 is fixedly arranged above the lower sinking plate 8, a second motor 12 is fixedly arranged on one side of the rack 10, the fixed gear 13 that is provided with on the output of second motor 12, gear 13 and rack 10 meshing, the fixed waterproof shell 15 that is provided with on ocean current velocity of flow detector 9, the fixed control chip 16 that is provided with in inside of waterproof shell 15, the fixed wireless communication module 17 that is provided with in one side of control chip 16, the fixed briquetting 18 that is provided with in inside of waterproof shell 15, the fixed pressure sensor 19 that is provided with in one side of briquetting 18, briquetting 18 passes through connecting rod 20 and is connected with suspensoid 21.

In this embodiment, preferably, sealing structures are provided at the contact position between the gear 13 and the rack 10 and at the contact position between the connecting rod 20 and the waterproof housing 15.

In this embodiment, it is preferable that at least three sets of the ocean current velocity detectors 9 are provided.

In this embodiment, preferably, the sinking plate 8 is fixedly provided with a water permeable hole.

In this embodiment, the bottom of the fixing anchor 5 is preferably conical.

In this embodiment, it is preferable that the outer surface of the ocean current velocity detector 9 is subjected to rust and corrosion prevention treatment.

It should be noted that, when the device for measuring the ocean current velocity is used, a cable winding and unwinding chamber 2 is fixedly arranged on each of the front and rear sides of a measuring vessel 1, a winding and unwinding reel 3 is rotatably arranged in the cable winding and unwinding chamber 2, a cable 4 is wound on the winding and unwinding reel 3, one end of the winding and unwinding reel 3 is connected with the output end of a first motor 11 through a transmission belt 14, the first motor 11 is fixedly arranged in the measuring vessel 1, the end of the cable 4 is fixedly provided with a fixed anchor 5, two cables 4 are sleeved with a sliding sleeve 6, the sliding sleeve 6 is fixedly connected with a lower sinking plate 8 through a fixed rod 7, a plurality of ocean current velocity detectors 9 are fixedly arranged below the lower sinking plate 8, a rack 10 is fixedly arranged above the sinking plate 8, a second motor 12 is fixedly arranged on one side of the rack 10, a gear 13 is fixedly arranged on the output end of the second motor 12, the gear 13 meshes with the rack 10, can be according to the nimble degree of depth of adjustment detector of actual need, so that the ocean current velocity of flow of different degree of depth measures, suspension 21 is under the impact of ocean current, drive briquetting 18 and press to pressure sensor 19, pressure sensor 19 becomes the velocity of flow signal through control chip 16's processing, transmit for land receiving station through wireless communication module 17, land receiving station can read the velocity of flow in corresponding region, simultaneously ocean current velocity of flow detector 9 is provided with three groups at least, the average number is got as measured data to the result that three groups ocean current velocity of flow detectors 9 measured, further improved measuring accuracy, be favorable to popularizing and promoting.

The foregoing shows and describes the general principles and features of the present invention and its advantages. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the present invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A seabed ocean current speed sensor, includes survey ship (1), cable (4), anchor (5) and ocean current velocity of flow detector (9), its characterized in that: the measuring ship comprises a measuring ship (1), cable winding and unwinding chambers (2) are fixedly arranged on the front side and the rear side of the measuring ship (1), a winding and unwinding reel (3) is arranged in the cable winding and unwinding chamber (2) in a rotating mode, a cable (4) is wound on the winding and unwinding reel (3), one end of the winding and unwinding reel (3) is connected with the output end of a first motor (11) through a transmission belt (14), the first motor (11) is fixedly arranged in the measuring ship (1), a fixed anchor (5) is fixedly arranged on the end portion of the cable (4), a sliding sleeve (6) is sleeved on the two cables (4), the sliding sleeve (6) is fixedly connected with a lower sinking plate (8) through a fixing rod (7), a plurality of ocean current flow velocity detectors (9) are fixedly arranged below the lower sinking plate (8), a rack (10) is fixedly arranged above the lower sinking plate (8), and a second motor (12) is fixedly arranged on one side of the rack (10), the fixed gear (13) that is provided with on the output of second motor (12), gear (13) and rack (10) meshing, the fixed waterproof shell (15) that is provided with on ocean current velocity of flow detector (9), the fixed control chip (16) that is provided with in inside of waterproof shell (15), the fixed wireless communication module (17) that is provided with in one side of control chip (16), the fixed briquetting (18) that is provided with in inside of waterproof shell (15), the fixed pressure sensor (19) that is provided with in one side of briquetting (18), briquetting (18) are connected with suspension body (21) through connecting rod (20).

2. A subsea ocean current velocity measuring device according to claim 1 and further comprising: and sealing structures are arranged at the contact part of the gear (13) and the rack (10) and the contact part of the connecting rod (20) and the waterproof shell (15).

3. A subsea ocean current velocity measuring device according to claim 1 and further comprising: the ocean current flow velocity detector (9) is at least provided with three groups.

4. A subsea ocean current velocity measuring device according to claim 1 and further comprising: and the sinking plate (8) is fixedly provided with a water permeable hole.

5. A subsea ocean current velocity measuring device according to claim 1 and further comprising: the bottom of the fixed anchor (5) is conical.

6. A subsea ocean current velocity measuring device according to claim 1 and further comprising: the outer surface of the ocean current flow velocity detector (9) is subjected to rust-proof and corrosion-proof treatment.

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