CN208567889U - Air-drop type sea-air interface integrated detection device - Google Patents

Abstract

The utility model discloses an air-drop type sea-air interface integrated detection device, which comprises an umbrella cabin, a sonde cabin and an XCTD cabin which are arranged from top to bottom, wherein a speed reducing umbrella is arranged in the umbrella cabin, and the top of the speed reducing umbrella is of an open structure; a sonde for completing meteorological element detection is arranged in the sonde cabin, and the side wall of the sonde cabin is provided with one or more windows communicated with the outside; the XCTD cabin is internally provided with an XCTD for completing the detection of marine water elements, the bottom of the XCTD cabin is of an open structure, and the XCTD is fixed in the XCTD cabin through a locking mechanism; the communication floating body can float on the sea surface; the communication floating body is connected and communicated with the sonde and the XCTD through a data line, receives returned meteorological element and X marine water element data, and forwards the data to a user through satellite communication. The utility model discloses can realize carrying out aerial atmosphere and ocean water integration measurement, can offer the innovation for unmanned aerial vehicle marine sea gas detection, ocean scientific investigation etc. and survey the means, compensate china in the blank of sea-gas integration detection field instrument.

Description

Hand throwing type ocean-atmosphere interface integrative detection device

Technical field

The utility model relates to meteorological and hydrospace detection crossing domains, and in particular to a kind of meteorological and ocean essential synthesis Detection device, mainly for the wet element of aerial 2000 meters or less temperature and pressure and 1000 meters of spies with shallow sea foreign-water body temperature salt depth element It surveys, is disposable device.

Background technique

It carries out drop-falling type air weather element both at home and abroad at present and the detection of ocean water body element section is two separated dresses It is standby.Obtain aerial air pressure, temperature, humidity, wind direction and wind velocity main equipment be dropsonde, only atmosphere is detected, It is not related to water body.Dropsonde China mainly carries corresponding sensor from there is man-machine upper height also in the development stage Catapult-launching gear ejection is pressed, and detection data is received by airborne communication device, use cost is high, and environmental condition requires tight.Water body The measurement of element mainly passes through boat-carrying and emits the probe acquisition deeply of deserted thermohaline, is emitted by ship side ejecting gun, in Putting into water rapidly In the process by the temperature of wire transmission seawater, salt, deep measurement amount, and must be just capable of measuring by ship traveling, cost effectiveness is very high, Measured zone is limited.

Utility model content

In view of the above-mentioned problems, aerial atmosphere and ocean water body can be carried out simultaneously the purpose of this utility model is to provide a kind of The light-duty Disposable device of integrated measuring, to realize that the wet meteorological element detection of aerial temperature pressure and ocean water Ti Wen Yan are visited deeply The highly integrated equipment surveyed.

The technical solution of the utility model is as follows:

A kind of hand throwing type ocean-atmosphere interface integrative detection device, including arrange from top to bottom umbrella cabin, sonde cabin and The cabin XCTD,

Drag parachute is placed in umbrella cabin, top is opened type structure；Hand throwing type ocean-atmosphere interface integrative detection device is in sky In when being launched, drag parachute is drawn out at the top of umbrella cabin and is unfolded under the action of air, to carry hand throwing type ocean-atmosphere interface one Body detection device slowly declines from aerial；

Sonde is configured in sonde cabin, the side wall in sonde cabin has one or more windows being in communication with the outside； In hand throwing type ocean-atmosphere interface integrative detection device during decline, sonde is directly contacted by window with ambient atmosphere, To complete meteorological element detection；

XCTD is configured in the cabin XCTD, bottom is opened type structure, and XCTD is fixed in the cabin XCTD by locking mechanism；It is empty Throwing formula ocean-atmosphere interface integrative detection device is after entering water, and because water slug tests Spontaneous release unlocks, XCTD is relied on certainly locking mechanism Body weight dive, to complete the detection of ocean water body element；

It further include that can fly at the communication floating body on sea when hand throwing type ocean-atmosphere interface integrative detection device enters water；It is logical Believe floating body by the first data line and sonde connection communication, by the second data line and XCTD connection communication, and the second data Line is broken automatically when XCTD dive is to predetermined depth；Communication floating body receives the meteorological element that sonde is passed back and XCTD is passed back Ocean water body factor data, and user is forwarded the data to by satellite communication.

As a preferred embodiment, communication floating body is plug type structure, and fills in the top in the cabin XCTD；Or communication floating body Between sonde cabin and the cabin XCTD, it is fixedly connected respectively with sonde cabin and the cabin XCTD.

As a preferred embodiment, communication floating body bottom also has a wrapping post for being used to wind the second data line.

As a preferred embodiment, sonde cabin includes at least three structure connecting columns being vertically arranged；Structure connecting column One end be fixedly connected with the bottom in umbrella cabin, the other end and the cabin XCTD or communicate is fixedly connected at the top of floating body, to be formed at least Three windows.

As a preferred embodiment, locking mechanism includes at least upper and lower two XCTD supporting elements；XCTD supporting element is approximation Cross or approximate fan balde structure, the support extended centered on supported hole to place with a supported hole and at least three Arm；Supported hole is located at the center of XCTD supporting element, and shape size matches with the head of XCTD or tail portion；Support arm The inner wall of end and the cabin XCTD fits；The head and tail portion of XCTD is arranged in the supported hole of XCTD supporting element, and passes through support Arm is stuck in the center of the cabin XCTD；In hand throwing type ocean-atmosphere interface integrative detection device after entering water, because of water slug tests The gap between third cabin inner wall and XCTD is disengaged it to realize that Spontaneous release unlocks.

As a preferred embodiment, the middle part of XCTD is cylindrical-shaped structure, and head is bullet-shaped, and tail portion has diameter edge Become larger one section of head to caudal directions；The supported hole of XCTD supporting element is circle, and one of XCTD supporting element is stuck in XCTD Head, another XCTD supporting element are stuck at tail diameter variation, with cross-brace and are fixed in the cabin XCTD.

As a preferred embodiment, XCTD supporting element selects foamed material.

As a preferred embodiment, sonde include the first data acquisition process unit, and at the first data acquisition Manage multiple sensors for meteorological element detection of unit electrical connection；XCTD includes the second data acquisition process unit, and The multiple sensors for the detection of ocean water body element being electrically connected with the second data acquisition process unit；Communication floating body includes depositing Storage module and the communication module being electrically connected with memory module；Memory module is led to by the first data line and sonde connection communication Cross the second data line and the second data acquisition process unit connection communication.

As a preferred embodiment, umbrella cabin, sonde cabin and the cabin XCTD are light-duty degradable using enhanced cardboard or engineering Material production.

As a preferred embodiment, the material for communicating floating body is oak or foam.

As a preferred embodiment, the second data line is enameled wire.

Its working method of hand throwing type ocean-atmosphere interface integrative detection device as characterized above is as follows:

When hand throwing type ocean-atmosphere interface integrative detection device, which reaches detection sea area overhead, is launched device throwing throwing, in umbrella cabin Drag parachute be drawn out from top and be unfolded under the action of air, to carry integrative detection device from aerial slowly decline；

During decline, the sonde in sonde cabin passes through the window being in communication with the outside and acquires meteorological element in real time simultaneously It is transferred to communication floating body storage；

When hand throwing type ocean-atmosphere interface integrative detection device integrally falls into seawater, communication floating body exposes and floats on sea, Because of the unlock of water slug tests Spontaneous release, XCTD is detached from the cabin XCTD and simultaneously relies on own wt dive locking mechanism in the cabin XCTD； XCTD acquires ocean water body element in real time and is simultaneously transmitted to communication floating body storage, when dive is to predetermined depth during dive Second data line is broken automatically；

After data acquire, floating body is communicated by the meteorological element data of storage and ocean water body factor data and passes through satellite It is forwarded to user.

The utility model, which has the advantages that, is:

(1) the utility model cleverly combines sonde and XCTD (thermohaline deep profile instrument), using degradable whole Drag parachute, sonde, communication floating body, XCTD etc. are constituted an entirety by cylindrical structure, and aerial gas can be achieved at the same time in primary discharge As the measurement of element and marine hydrology information acquires.

(2) device be it is a kind of can the aerial air pressure of quick obtaining, temperature, humidity and ocean water body temperature, salinity, depth hang down The integration of straight profile can abandon detection device, can provide wound for the marine extra large gas detection of unmanned plane, ocean scientific investigation, scientific research etc. New detection means make up China in sea-gas integral field of detecting instrument blank, the design of especially this integrated apparatus At home, the world is blank.

(3) apparatus structure is simply light, is easily worked, is easy to use, and integrated level is high, is applicable to UAV system throwing It puts, it is practical, with good application prospect.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the small-sized hand throwing type ocean-atmosphere interface instrument of UAV system in embodiment；

Fig. 2 is another structural schematic diagram of the small-sized hand throwing type ocean-atmosphere interface instrument of UAV system in embodiment；

(a) is aa' schematic cross-section 1 in Fig. 1 in Fig. 3；(b) is aa' schematic cross-section 2 in Fig. 1 in Fig. 3；

Fig. 4 is that there are four the schematic perspective views of the XCTD supporting element of support arm for tool；

Fig. 5 is the structural schematic diagram for communicating floating body；

Fig. 6 is the circuit connection block diagram of the small-sized hand throwing type ocean-atmosphere interface instrument of UAV system；

Attached drawing mark: 1- umbrella cabin, 10- cabin, 11- drag parachute, 12- removable top cover (not shown), the chassis 13-, 2- Sonde cabin, 20- cabin, 21- sonde, the chassis 22-, 23- structure connecting column, the cabin 3-XCTD, 30- cabin, 31-XCTD, 32-XCTD supporting element, 33- supported hole, 34, support arm, 4- communicate floating body, solid body 41, wrapping post 42.

Specific embodiment

It is understandable to be more clear the technical solution of the utility model and advantage, With reference to embodiment, and join Attached drawing is read, to the small-sized hand throwing type ocean-atmosphere interface instrument of UAV system described in the utility model (hereinafter referred to as ocean-atmosphere interface instrument) into one Step illustrates.

It mainly include the umbrella cabin being sequentially arranged from top to bottom as shown in Figure 1, disclosing a kind of ocean-atmosphere interface instrument in embodiment 1, sonde cabin 2 and the cabin XCTD 3, and fill in the communication floating body 4 on 3 top of the cabin XCTD.

Umbrella cabin 1 is for placing hand throwing type ocean-atmosphere interface instrument special retarding umbrella, mainly by cabin 10, removable top cover 12 and bottom Disk 13 is constituted.Cabin 10 is cylindrical structure, and the bottom of cabin 10 is fixedly connected or integrally formed with chassis 13, and top passes through work Dynamic top cover 12 covers, and to mitigate overall weight, chassis 13 may be designed to fenestral fabric.Drag parachute 11 is placed on chassis 13 On comprising main chute and umbrella are buckled, and have a through-hole on removable top cover 12, and umbrella latch portion passes through through-hole and is stuck in removable top cover 12 Side, another part are stuck in 12 outside of removable top cover.Drag parachute 11 is placed in umbrella cabin 1 after folding, with common landing pack class Seemingly, the umbrella of top of the umbrella is buckled the hook special with unmanned plane or other delivery devices and is connect.When ocean-atmosphere interface instrument abandons throwing by unmanned plane When putting, the umbrella of top of the umbrella is buckled related removable top cover 12 and is opened, and main chute is drawn out umbrella cabin, and is unfolded naturally under air effect, with Keep ocean-atmosphere interface instrument entirety descending at slow speed.

Sonde cabin 2 is for completing meteorological element detection.In the present embodiment, the cabin 20 in sonde cabin 2 is mainly by chassis 22 and five root knot structure connecting column 23 constitute, one end of structure connecting column is fixedly connected with chassis 22, the bottom of the other end and umbrella cabin 1 It is fixedly connected, is circumferentially arranged along chassis 22 is equidistant, so that shape one is used to place the space of sonde 21.Pass through this column branch On the one hand the design of support structure forms the cabin 20 for placing sonde 21, on the other hand sonde 21 can again carried Sensor is directly contacted with atmosphere, ensure that the accuracy of measurement.It is also equipped on chassis 22 for connecting sonde 21 and leading to Believe the data line of floating body 4.

It should be noted that forming a window between adjacent two root knots structure connecting column 23, this structure can not only make interior Sonde 21 and the external world set come into full contact with, moreover it is possible to accurately measure wind speed, and can reduce the overall weight in sonde cabin 2.Certainly, The quantity of structure connecting column 23 is not limited to five, three can also, as long as its one side guarantees that sonde 21 will not be from adjacent Gap (window) between structure connecting column 23 flies out, and on the other hand, it is enough that support is connected up and down for the intensity of structure connecting column 23 Object.In addition to this preferred structure, cabin 20 can also be designed directly to be connected with the cabin 10 in umbrella cabin 1 or one Molding cylindrical structure, as long as opening up the window contacted for sensor with ambient atmosphere on the side wall of cabin 20, For example, using evenly arranged cell structure or the engraved structure of other forms, it can be with external world's sky as long as meeting sonde 21 Gas comes into full contact with.

The cabin XCTD 3 is for completing the detection of ocean water body element, and main includes a cylindrical cabin 30, and the bottom of cabin 30 is Opened type structure.Locking mechanism 32 is equipped in cabin 30, for XCTD 31 to be locked in cabin 30.

Referring to figs. 1 and 2, the middle part of XCTD is cylindrical-shaped structure, and head is bullet-shaped, and tail portion has diameter edge Become larger one section of head to caudal directions.In conjunction with shown in Fig. 3 and Fig. 4, locking mechanism be can be using lightweights such as oak or foams There is certain thickness XCTD supporting element 32, and as the accessory configuration of ocean-atmosphere interface instrument made of material.XCTD support Part 32 is approximate cross or approximate fan balde structure, has a circular support hole 33 and multiple centered on supported hole 33 The support arm 34 to extend to place；Supported hole 33 is located at the center of XCTD supporting element 32, and inner wall is the head or tail portion with XCTD 31 Outer wall fit；The end of support arm 34 and the inner wall of cylindrical cabin 30 fit.XCTD supporting element 32 at least needs two A, one for blocking the head of XCTD 31, another is used to block the tail portion of XCTD 31, and by with 30 inner wall of cabin And the frictional force of 31 outer wall of XCTD is with cross-brace XCTD 31, and the center being fixed in cabin 30.

When ocean-atmosphere interface instrument touches water, there is certain overboard speed due to whole, water pours cabin 30 from bottom, by XCTD Supporting element 32 washes out, i.e., locking mechanism Spontaneous release unlocks, and XCTD 31 slides into water naturally and relies on own wt dive. XCTD 31 is during dive, real-time measurement ocean temperature, salinity, the data such as depth.

It should be noted that XCTD supporting element 32 can also be designed to that other similar structures, main function are by XCTD 31 are stuck in the cabin XCTD 3, do not allow it arbitrarily to shake, and after ocean-atmosphere interface instrument enters water, can be rushed by the impact force of seawater It walks, to discharge XCTD 31, it is made to fall into the water.

Communication floating body 4 is mainly used for completing wire communication and satellite communication task, the meteorological element that acquisition and forwarding obtain With ocean water body element.As shown in figure 5, communication floating body 4 have respectively with the first of 31 wired connection of sonde 21 and XCTD and The second two signal input parts, and the signal output end being wirelessly connected with communications satellite.Ocean-atmosphere interface instrument declines with drag parachute In the process, the collected real-time wet data of temperature and pressure of sonde 21 are transmitted to by communication floating body 4 by the first signal input part and stored up It deposits；After reaching the water surface, the collected real-time seawater thermohaline depth data of XCTD 31 are transmitted to by second signal input terminal logical Letter floating body 4 simultaneously stores；Then the real time data of storage is uniformly sent by signal output end again, and is forwarded to by satellite User.Wherein, it communicates the first signal input part of floating body 4 and the sonde 21 in sonde cabin 2 uses data line wire communication； CTD can be used between XCTD 31 in second signal input terminal and the cabin XCTD 3 and communicate common enameled wire progress wire communication, The enameled wire has some strength, automatic to be broken when XCTD 31 reaches underwater certain depth (for example, underwater 1000 meters), this When, XCTD 31 completely disengages ocean-atmosphere interface instrument.

In physical design, it can will communicate floating body 4 and be designed as the bottle stopper being adapted with 30 size of cabin in the cabin XCTD 3 Formula structure is plunged into the top of the cabin 30 in the cabin XCTD 3, is the weight of further alleviator, can also save sonde cabin 2 Chassis, the cabin 20 in sonde cabin 2 is directly anchored to the top in the cabin XCTD 3 or communicates the top of floating body 4, communication is floating The top surface of body 4 is as the chassis for placing sonde 21 in sonde cabin 2.

The communication floating body 4 of plug type structure includes solid body 41 and the wrapping post 42 for being fixed on 41 bottom of solid body, It is fixed with the electrical component with storage and communication function at the top of solid body 41, and is sealed with disposable waterproof glue electrical component Firmly.Solid body 41 fills in the top in the cabin XCTD 3 using the production of the light materials such as oak, so that communication floating body 4 and the cabin XCTD 3 The water surface can be swum in.Wrapping post 42 is fixed on the bottom of solid body 41, is mainly used for the enamel-cover that winding is connect with XCTD 31 Line, enameled wire one end are arranged in solid body 41 and connect with the electrical component at top, other end connection and XCTD 31.In reality Border is in application, can also be designed to communication floating body 4 and the cabin XCTD 3 that can meet the detachable connection of water, as long as it is floating not influence communication Body 4 works.

As shown in Fig. 2, show a kind of another structure of ocean-atmosphere interface instrument in embodiment, the ocean-atmosphere interface instrument with it is above-mentioned Ocean-atmosphere interface instrument described in embodiment is only that the difference of communication floating body.In the structure, the solid body 41 of communication floating body 4 is Cylindrical structure is located among sonde cabin 2 and the cabin XCTD 3, upper and lower ends respectively with the bottom in sonde cabin 2 and the cabin XCTD 3 Top be fixedly connected.

Above each cabin may be designed to the cylindrical-shaped structure of diameter equal (10cm), and the length ratio of each section is as schemed Show.By the connection of each cabin, whole device is made to form an entirety.On the one hand cabin can be used as a kind of light-duty carries support Object connection or fixed related building block, while being also the protection to each building block.The material of cabin may be selected enhanced hard Paper or the light-duty degradation material of engineering.

As shown in fig. 6, sonde 21 mainly includes temperature, the humidity, air pressure, wind direction, wind speed according to measurement demand configuration Etc. multiple sensors, and with communicate floating body 4 communication connection the first data acquisition process unit.XCTD 31 mainly includes temperature Multiple sensors such as degree, depth, conductance, and with communicate floating body 4 communication connection the second data acquisition process unit.Wherein, Data acquisition process unit is mainly used for the various detection elements of acquisition process and is pre-processed, after forming preset format data, then It is sent by communication module.The electrical component for communicating floating body 4 mainly includes memory and communication module (for example, Beidou transmission), is deposited Reservoir is wanted by the detection that data line receives the preset format sent by the data acquisition process unit of XCTD 31 and sonde 21 Prime number evidence, is sent to user through communication module after storage.

Based on foregoing description, it is briefly described as follows the working principle of the small-sized hand throwing type ocean-atmosphere interface instrument of UAV system:

When unmanned plane, which carries small-sized hand throwing type ocean-atmosphere interface instrument, reaches detection sea area overhead (for example, 1000 meters of height above sea level), Ocean-atmosphere interface instrument is discharged, the drag hook on unmanned plane is pulled open drag parachute 11 by device self gravity, and drag parachute 11 carries entirely Device is slowly fallen from the air.Ocean-atmosphere interface instrument in the sky want by fall stage, the big temperature of 21 continuous acquisition of sonde, pressure, wet, wind Element, wire transmission are stored to communication floating body 4；It is empty by buoyancy possessed by communication floating body 4 when integrally falling into seawater Throwing formula ocean-atmosphere interface instrument flies at sea, and the cabin XCTD 3 is located at sea hereinafter, seawater impacts water from the bottom entrance in the cabin XCTD 3 Pressure unlocks the locking mechanism Spontaneous release in cabin, and XCTD 31 progressively disengages the cabin XCTD 3 and relies on own wt dive, continuously Water body temperature, salt, deep element are acquired, and collected water body factor data is reached in real time by communication floating body 4 by data line；Instantly It (can be determined according to the length of enameled wire, for example, 1000 meters of depth) when diving to certain depth, optical fiber is broken automatically, completes water body Factor data acquisition finally communicates floating body 4 by communications satellite and sends all data to user, to complete whole process.

To sum up, the utility model makes full use of system integration technology, sensor OEM plate technology, each component models Change designs, and the detection of aerial element and the detection of water body element are comprehensively considered, and quick using the unmanned air vehicle technique realization having had, Sea-gas integral measurement of arbitrary region, low cost, has very wide application prospect.

The foregoing describe the main feature of the utility model and embodiments.For those skilled in the art For, without departing from the principle of this utility model, several improvements and modifications can also be made, these improvements and modifications are all It falls into the protection scope of the utility model.The protection scope of the requires of the utility model is by appended claims and its is equal Object.

Claims (10)

1. a kind of hand throwing type ocean-atmosphere interface integrative detection device, it is characterised in that: including arrange from top to bottom umbrella cabin, sounding Instrument cabin and the cabin XCTD,

Drag parachute is placed in the umbrella cabin, top is opened type structure；Hand throwing type ocean-atmosphere interface integrative detection device is in sky In when being launched, drag parachute is drawn out at the top of umbrella cabin and is unfolded under the action of air, to carry hand throwing type ocean-atmosphere interface one Body detection device slowly declines from aerial；

Sonde is configured in the sonde cabin, the side wall in sonde cabin has one or more windows being in communication with the outside； In hand throwing type ocean-atmosphere interface integrative detection device during decline, sonde is directly contacted by window with ambient atmosphere, To complete meteorological element detection；

XCTD is configured in the cabin XCTD, bottom is opened type structure, and XCTD is fixed in the cabin XCTD by locking mechanism；It is empty Throwing formula ocean-atmosphere interface integrative detection device is after entering water, and because water slug tests Spontaneous release unlocks, XCTD is relied on certainly locking mechanism Body weight dive, to complete the detection of ocean water body element；

It further include that can fly at the communication floating body on sea when hand throwing type ocean-atmosphere interface integrative detection device enters water；It is described logical Believe floating body by the first data line and sonde connection communication, by the second data line and XCTD connection communication, and the second data Line is broken automatically when XCTD dive is to predetermined depth；What the meteorological element and XCTD that communication floating body reception sonde is passed back were passed back Ocean water body factor data, and user is forwarded the data to by satellite communication.

2. integrative detection device as described in claim 1, it is characterised in that: the communication floating body is plug type structure, and Fill in the top in the cabin XCTD；Alternatively, the communication floating body is between sonde cabin and the cabin XCTD, respectively with sonde cabin and The cabin XCTD is fixedly connected.

3. integrative detection device as claimed in claim 2, it is characterised in that: the communication floating body bottom also has one to be used for Wind the wrapping post of the second data line.

4. integrative detection device as described in claim 1, it is characterised in that: the sonde cabin includes at least three vertical The structure connecting column of arrangement；One end of the structure connecting column is fixedly connected with the bottom in umbrella cabin, the other end and the cabin XCTD or logical It is fixedly connected at the top of letter floating body, to form at least three window.

5. integrative detection device as described in claim 1, it is characterised in that: the locking mechanism includes at least up and down two XCTD supporting element；The support that the XCTD supporting element is extended centered on supported hole to place with a supported hole and at least three Arm；The supported hole is located at the center of XCTD supporting element, and shape size matches with the head of XCTD or tail portion；It is described The end of support arm and the inner wall in the cabin XCTD fit；The head and tail portion of XCTD are arranged in the supported hole of XCTD supporting element, and It is stuck in the center of the cabin XCTD by support arm；In hand throwing type ocean-atmosphere interface integrative detection device after entering water, because Water slug tests disengage it from the gap between third cabin inner wall and XCTD to realize that Spontaneous release unlocks.

6. integrative detection device as claimed in claim 5, it is characterised in that: the XCTD supporting element selects foamed material.

7. integrative detection device as described in claim 1, it is characterised in that: the umbrella cabin, sonde cabin and the cabin XCTD are adopted With enhanced cardboard or the light-duty degradation material production of engineering.

8. integrative detection device as described in claim 1, it is characterised in that: the material of the communication floating body is oak or bubble Foam.

9. integrative detection device as described in claim 1, it is characterised in that: second data line is enameled wire.

10. integrative detection device as claimed in any one of claims 1 to 9, it is characterised in that: the sonde includes the One data acquisition process unit, and the multiple biographies for meteorological element detection being electrically connected with the first data acquisition process unit Sensor；The XCTD includes the second data acquisition process unit, and is used for what the second data acquisition process unit was electrically connected Multiple sensors of ocean water body element detection；The communication that the communication floating body includes memory module and is electrically connected with memory module Module；Memory module passes through the second data line and the second data acquisition process by the first data line and sonde connection communication Unit connection communication.