CN209690222U - A kind of drift visualizer device of measurable layering salinity - Google Patents

Abstract

The utility model discloses a kind of drift visualizer devices of measurable layering salinity, including buoy and water sail；The buoy is connected with water sail by hawser；At least two salinity sensors are provided in the different level of the water sail；The salinity sensor is connect with the data processing module signal being set on the buoy.The utility model has the following beneficial effects: 1, drive buoy to move with ocean current by water sail, and salinity sensor is set to realize the Salinity Data acquisition with ocean current different depth in the different level of water sail, provides data support for the analysis of salinity altercation.2, salinity sensor is set to the same side of the water sail, can reduce height error；3, data line is arranged across hawser, is protected with hawser to data, guarantees that signal smoothly transmits；4, salinity sensor is set on frame, can be avoided the impact of sundries in ocean current.

Description

A kind of drift visualizer device of measurable layering salinity

Technical field

The utility model relates to sea area DATA REASONINGs, and in particular to a kind of drift visualizer dress of measurable layering salinity It sets.

Background technique

Existing sea area meteorologic survey technical solution has the one-point measurement of anchoring and activity measurement is arranged on ship, but above-mentioned Two kinds of measurement methods in for the measurement of salinity be also be merely capable of to sea surface salinity measure.However in the prior art for salt The variation that degree is generated with ocean current and depth is then without effective measuring technique scheme.

Utility model content

For the problems of in the prior art, the purpose of this utility model is to provide one kind can measure layering salinity Drift visualizer device, can measure with ocean current generate different depth Salinity Data, provided for the analysis of salinity altercation Data are supported.

To reach above-mentioned purpose of utility model, the technical solution of the utility model is as follows:

A kind of drift visualizer device of measurable layering salinity, including buoy and water sail；The buoy and water sail pass through Hawser connection；At least two salinity sensors are provided in the different level of the water sail；The salinity sensor be set to Data processing module signal connection on the buoy；The salinity sensor is conductivity sensor.

Further, the drift visualizer device of above-mentioned measurable layering salinity, the salinity sensor are set to institute State the same side of water sail.

Further, the drift visualizer device of above-mentioned measurable layering salinity, the buoy lower end are also equipped with salt Spend sensor.

Further, the drift visualizer device of above-mentioned measurable layering salinity, the salinity sensor on water sail pass through Data line is connect with the data processing module；The hawser is hollow tube shape, and the data line passes through the cavity of the hawser.

Further, the drift visualizer device of above-mentioned measurable layering salinity, the water sail include the waterproof of tubular Cloth and the skeleton for supporting the waterproof cloth.

Further, the drift visualizer device of above-mentioned measurable layering salinity, the skeleton include at least two frames Frame is uniformly arranged in the different level of waterproof cloth.

Further, the drift visualizer device of above-mentioned measurable layering salinity, the salinity sensor on the water sail It is set on different frames.

Further, the drift visualizer device of above-mentioned measurable layering salinity, the frame are connected by waterproof cloth It connects in order to the folding of water sail.

The utility model has the following beneficial effects:

1, it drives buoy to move with ocean current by water sail, and salinity sensor is set to realize in the different level of water sail It is acquired with the Salinity Data of ocean current different depth, provides data support for the analysis of salinity altercation.

2, salinity sensor is set to the same side of the water sail, can reduce height error.

3, data line is arranged across hawser, is protected with hawser to data, guarantees that signal smoothly transmits.

4, salinity sensor is set on frame, can be avoided the impact of sundries in ocean current.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of the drift visualizer device of measurable layering salinity of the utility model.

Fig. 2 is the structural schematic diagram of the water sail of the utility model.

In above-mentioned attached drawing, 1, buoy；2, water sail；3, salinity sensor；4, hawser；5, data line.

Specific embodiment

The utility model is described in detail with reference to the accompanying drawings and examples.

As shown in Figure 1, the utility model provides a kind of drift visualizer device of measurable layering salinity, including buoy 1 and water sail 2；The buoy 1 and water sail 2 are connected by hawser 4；At least two salt are provided in the different level of the water sail 2 Spend sensor 3；The salinity sensor 3 is connect with the data processing module signal being set on the buoy 1；The salinity passes Sensor 3 is conductivity sensor.It drives buoy 1 to move with ocean current by water sail 2, and salt is set in the different level of water sail 2 Sensor 3 is spent to realize the Salinity Data acquisition with ocean current different depth, provides data support for the analysis of salinity altercation.

In the present embodiment, the salinity sensor 3 on water sail 2 is three, is set to the same side of the water sail 2, in this way, In the attitudes vibration of water sail 2, the relative altitude variation between salinity sensor 3 less helps that height error can be reduced, Improve DATA REASONING accuracy.

Further, in this embodiment 1 lower end of buoy is also equipped with salinity sensor 3, to measure sea surface salinity.

Salinity sensor 3 on water sail 2 is connect by data line 5 with the data processing module；The hawser 4 is hollow Hose-like, the data line 5 pass through the cavity of the hawser 4.Data line 5 is protected by hawser 4, guarantees that signal smoothly passes It is defeated.

The water sail 2 includes the waterproof cloth of tubular and the skeleton for supporting the waterproof cloth.The skeleton includes at least two Frame is uniformly arranged in the different level of waterproof cloth.Frame is preferably annular shape.Salinity sensor 3 on the water sail 2 is set It is placed on different frames, certain physical protection is played the role of to salinity sensor 3 by frame, can be avoided miscellaneous in ocean current The impact of object reduces loss.Further, frame is mutually indepedent, is only connected by waterproof cloth in order to the folding of water sail.

Obviously, it is practical without departing from this can to carry out various modification and variations to the utility model by those skilled in the art Novel spirit and scope.If in this way, belonging to the utility model claims to these modifications and variations of the present invention And its within the scope of equivalent technology, then the utility model is also intended to include these modifications and variations.

Claims (8)

1. a kind of drift visualizer device of measurable layering salinity, it is characterised in that: including buoy (1) He Shuifan (2)；It is described Buoy (1) He Shuifan (2) is connected by hawser (4)；At least two salinity sensing is provided in the different level of the water sail (2) Device (3)；The salinity sensor (3) connect with the data processing module signal being set on the buoy (1)；The salinity passes Sensor (3) is conductivity sensor.

2. the drift visualizer device as described in claim 1 that can measure layering salinity, it is characterised in that: the salinity sensing Device (3) is set to the same side of the water sail (2).

3. the drift visualizer device as described in claim 1 that can measure layering salinity, it is characterised in that: the buoy (1) Lower end is also equipped with salinity sensor (3).

4. the drift visualizer device as described in claim 1 that can measure layering salinity, it is characterised in that: on water sail (2) Salinity sensor (3) is connect by data line (5) with the data processing module；The hawser (4) is hollow tube shape, described Data line (5) passes through the cavity of the hawser (4).

5. the drift visualizer device of the measurable layering salinity as described in claim 1-4 is any, it is characterised in that: the water Sail (2) includes the waterproof cloth of tubular and the skeleton for supporting the waterproof cloth.

6. the as claimed in claim 5 drift visualizer device that can measure layering salinity, it is characterised in that: the skeleton includes At least two frames, are uniformly arranged in the different level of waterproof cloth.

7. the drift visualizer device as claimed in claim 6 that can measure layering salinity, it is characterised in that: the water sail (2) On salinity sensor (3) be set on different frames.

8. the drift visualizer device as claimed in claim 6 that can measure layering salinity, it is characterised in that: the frame passes through Waterproof cloth connection is in order to the folding of water sail.