CN106904257B - The deep sea exploring device of deep-sea detecting dive cabin and its application - Google Patents

Abstract

Embodiment of the present invention discloses the deep sea exploring device of a kind of deep-sea detecting dive cabin and its application, belongs to the technical solution in deep-sea detecting field, and core is to include that pressure-resistant seal cabin and first sensor carry bucket；The first end of pressure-resistant seal cabin is equipped with the first opening, and the first opening is equipped with first end cover, and first end cover is sealingly connected with the first opening；The second end of pressure-resistant seal cabin is equipped with first flange and watertight mounting hole, and watertight mounting hole is placed in first flange and encloses in the space received, and watertight mounting hole is connected with the inside of pressure-resistant seal cabin；The side wall that first sensor carries bucket is equipped with the first recirculation hole, the first recirculation hole at least two, and the first recirculation hole and first sensor are carried and be connected inside bucket；The first end that first sensor carries bucket is equipped with second flange, and second flange couples with first flange, and the inside that first sensor carries bucket is enclosed the space received with first flange and is connected；By this programme, the installation convenience of watertightness and sensor just can be improved simultaneously.

Description

The deep sea exploring device of deep-sea detecting dive cabin and its application

Technical field

The present invention relates to deep-sea detecting field, in particular to the deep-sea detecting of a kind of deep-sea detecting dive cabin and its application fills It sets.

Background technique

The fast-developing demand sharp increase to mineral resources of 21 century economy, with the aggravation of exploitation, land mine Production resource is increasingly depleted, and ocean increasingly becomes field concerned by people, and the exploitation of marine resources has become a kind of inevitable choice. With the development of marine technology and the exploitation of marine resources, the economic development of coastal area, marine environmental pollution is serious, ecological ring Worsening is destroyed in border, and Oceanic disasters frequently occur, and especially disaster also constantly occurs under ocean water in recent years, gives Seashore Tourist Trade Industry, mariculture industry, seawater utilization industry etc. cause huge economic losses.Since 21st century, as people are to ocean The pay attention to day by day of resource, gos deep into marine resources development, deepens constantly to marine environment understanding, countries in the world are all energetically Carry out the activity explored ocean, develop marine resources, also higher and higher to the investigation and detection requirement of ocean, marine resources are surveyed It visits the research work such as exploitation and also gradually moves towards deep-sea from shallow sea.Ocean is closely bound up with human lives, and country is to ocean ring Also pay attention to day by day is protected in border, is launched respectively from State-level to government agencies at all levels or is planned to put into effect and further improves marine environment Comprehensive monitoring business.It is simple by monitoring means such as the buoys on sea surface layer for disaster under ocean water and underwater abnormal environment It has been far from satisfying demand, be badly in need of developing and has established perspective cross section on-line monitoring system under a set of ocean water.Perspective cross section Monitor it is most important be exactly dive cabin design, it includes pressure-resistant seal cabin, instrument loading device.The electronic devices such as data collector, The apparatus elements such as power supply and communication transfer are all mounted in pressure-resistant seal cabin.Therefore hydrospace detection dive cabin can be ocean Detection and marine resources development provide a strong guarantee.

Hydrospace detection instrument chamber device is formed by by three or more pressure-resistant cabins at present, and water is used between each pressure-resistant cabin Close plug-in unit is connected with cable, and watertight insert design is in pressure-bearing instrument room top surface or bottom surface.Pressure-resistant instrument room is by a cylinder, two Underwater electrical connector composition on end cap and end cap, each end cap and cylinder are circumferentially uniformly connected with six screws, are tied Position is closed to be sealed by O-ring.Its structure is simple, and cylinder both ends open, two end cap is all communicated with outside, easy to disassemble, Facilitate internal installation, maintenance；Cylinder and flange end cap use separate structure, and processing and manufacturing is easy, economic and practical；Both ends use O Shape circle is sealed, simple structure and reliable sealing；Hanging ring is installed at one end, convenient for lifting, is carried；Inside and outside information passes through water Close plug-in unit connection ensure that information transmission and leakproofness in cabin.

But existing pressure-resistant cabin both ends blind flange needs to link sealing with cylinder, and hydrospace detection instrument/sensor is taken It is inconvenient to carry installation, can not connect with pressure-resistant seal cabin, it can only be by addition designing carrying equipment fixed installation sensor and resistance to Ballasting, between information transmitted by watertight plug-in unit, it is simple that original pressure-resistant cabin itself seems processing and fabricating, low in cost, but when peace When dress carries instrumentation/sensor, anyway increase cost.

Summary of the invention

The purpose of the present invention is to provide a kind of deep-sea detecting dive cabin and its deep sea exploring devices of application, existing to solve There is technology to be difficult to the problem of installing sensor.

In order to solve the above-mentioned technical problems, the present invention provides a kind of deep-sea detecting dive cabin, including pressure-resistant seal cabin and First sensor carries bucket；The first end of the pressure-resistant seal cabin is equipped with the first opening, and first opening is equipped with first end Lid, the first end cover and first opening sealingly connect；The second end of the pressure-resistant seal cabin is equipped with first flange and water Close mounting hole, the watertight mounting hole are placed in the first flange and enclose in the space received, the watertight mounting hole and the pressure resistance The inside of sealed compartment is connected；The side wall that the first sensor carries bucket is equipped with the first recirculation hole, and first recirculation hole is at least It is two, first recirculation hole and the first sensor are carried and be connected inside bucket；The first sensor carries the of bucket One end is equipped with second flange, and the second flange couple with the first flange, the inside of the first sensor carrying bucket and The first flange encloses the space conducting received.

Wherein, the inner wall of the pressure-resistant seal cabin is equipped with supporting table, and the supporting table is interior around the pressure-resistant seal cabin Wall arrangement circularizes, and the supporting table is equipped with ring shaped slot towards the surface of the first end cover, is equipped with sealing in the ring shaped slot Part, the first end cover are abutted against with the sealing element, and the inner wall spiral shell of the side of the first end cover and first opening Line connection.

Wherein, the first flange, which is enclosed, is equipped with watertight plug-in unit in the space received, the watertight plug-in unit and watertight mounting hole join It connects.

Wherein, the side wall of the first flange is equipped with the second recirculation hole, second recirculation hole at least two, and described the Two recirculation holes enclose the space received with the first flange and are connected.

Wherein, the first end end face that the first sensor carries bucket is equipped with third recirculation hole, the third recirculation hole with The first sensor carries the inside conducting of bucket.

Wherein, the lateral wall of the first flange is equipped with antenna installing hole.

Wherein, the second end that the first sensor carries bucket is equipped with third flange；It also wraps in deep-sea detecting dive cabin It includes second sensor and carries bucket, the first end that the second sensor carries bucket is equipped with the 4th flange, the 4th flange and institute The connection of third flange is stated, the inside that the second sensor carries bucket is connected with the inside that the first sensor carries bucket；Institute It states second sensor and carries the side wall of bucket equipped with the 4th recirculation hole, the 4th recirculation hole at least two, the 4th circulation Hole and the second sensor are carried and are connected inside bucket.

Wherein, the second end that the first sensor carries bucket is equipped with the second opening, and the second sensor carries bucket First end is open equipped with third, and second opening is conducted with third opening.

Wherein, the second end that the second sensor carries bucket is equipped with the 4th opening, and the inner wall of the 4th opening is equipped with First keyway；Deep-sea detecting dive cabin further includes second end cover, and the second end cover and the second sensor carry bucket Second end connection, the second end cover the position opposite with first keyway be equipped with the second keyway, second keyway Splicing opposite with first keyway.

A kind of deep sea exploring device is equipped with monitor in the pressure-resistant seal cabin including above-mentioned deep-sea detecting dive cabin Device, the first sensor carry and are equipped with sensor in bucket, and the monitoring instrument and the sensor are electrically connected, the monitoring Instrument is electrically connected with antenna.

Beneficial effects of the present invention are as follows:

Deep-sea detecting dive cabin described in embodiment of the present invention includes that pressure-resistant seal cabin and first sensor carry bucket, by It is equipped with first flange in the second end of the pressure-resistant seal cabin, the first end that the first sensor carries bucket is equipped with the second method Orchid, the second flange couple with the first flange, so pressure-resistant seal cabin and first sensor, which carry bucket, can couple and be One, installs monitoring instrument in pressure-resistant seal cabin, carries in bucket in first sensor and installs sensor, solves the prior art It is difficult to the problem of installing sensor.

Detailed description of the invention

In order to illustrate more clearly of technical solution of the present invention, attached drawing needed in embodiment will be made below Simply introduce, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present invention, general for this field For logical technical staff, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram that deep-sea detecting dive of the present invention cabin preferred embodiment provides；

Fig. 2 is the pressure-resistant seal cabin structural schematic diagram that deep-sea detecting dive of the present invention cabin preferred embodiment provides；

Fig. 3 is the pressure-resistant seal cabin the schematic diagram of the section structure that deep-sea detecting dive of the present invention cabin preferred embodiment provides；

Fig. 4 is the part A enlarged diagram of Fig. 3；

Fig. 5 is that the first sensor that deep-sea detecting dive of the present invention cabin preferred embodiment provides carries barrel structure signal Figure；

Fig. 6 is that the second sensor that deep-sea detecting dive of the present invention cabin preferred embodiment provides carries barrel structure signal Figure；

Fig. 7 is the second end cover structural schematic diagram that deep-sea detecting dive of the present invention cabin preferred embodiment provides.

Appended drawing reference is as follows:

1, pressure-resistant seal cabin；11, watertight mounting hole；12, supporting table；13, ring shaped slot；14, antenna installing hole；

21, first sensor carries bucket；22, second sensor carries bucket；

31, the first keyway；32, the second keyway；

41, first end cover；42, second end cover；

51, first flange；52, second flange；53, third flange；54, the 4th flange；

61, the first recirculation hole；62, the second recirculation hole；63, third recirculation hole；64, the 4th recirculation hole；

7, sensor mounting hole；

8, handle.

Specific embodiment

Below in conjunction with the attached drawing in embodiment of the present invention, the technical solution in embodiment of the present invention is carried out clear Chu is fully described by.

From Fig. 1 to 7 it is found that deep-sea detecting dive of the present invention cabin, including pressure-resistant seal cabin 1 and first sensor are taken Carry bucket 21；The first end of the pressure-resistant seal cabin 1 is equipped with the first opening, and first opening is equipped with first end cover 41, described First end cover 41 and first opening sealingly connect；The second end of the pressure-resistant seal cabin 1 is equipped with first flange 51 and watertight Mounting hole 11, the watertight mounting hole 11 are placed in the first flange 51 and enclose in the space received, the watertight mounting hole 11 and institute State the inside conducting of pressure-resistant seal cabin 1；The side wall that the first sensor carries bucket 21 is equipped with the first recirculation hole 61, and described first Recirculation hole 61 at least two, first recirculation hole 61 are carried with the first sensor and are connected inside bucket 21；Described first The first end that sensor carries bucket 21 is equipped with second flange 52, and the second flange 52 couples with the first flange 51, described The space received is enclosed with the first flange 51 and is connected in the inside that first sensor carries bucket 21.

Pressure-resistant seal cabin 1 is specific as shown in Figures 2 to 4, firstly, the entirety of pressure-resistant seal cabin 1 is substantially cylindrical, first is opened The size of mouth is more slightly smaller than the end face of 1 first end of pressure-resistant seal cabin, so that relevant monitoring instrument can be smoothly put into resistance to densification In batten down 1；Secondly, the end face of 1 second end of pressure-resistant seal cabin is essentially sealing state, the setting quantity of opening is reduced, not only can Enough reinforce the integral strength of pressure-resistant seal cabin 1, and avoid increasing end cap, reduces seawater from end cap and 1 seam of pressure-resistant seal cabin Place is penetrated into can chance；Furthermore there is only watertight mounting holes 11 for the end face of 1 second end of pressure-resistant seal cabin can be with pressure-resistant seal cabin 1 Inside conducting, so the monitoring instrument in pressure-resistant seal cabin 1 can pass through 11 lead of watertight mounting hole to outside, wherein water Close mounting hole 11 has water-proof function, while seawater being prevented to penetrate into, and watertight mounting hole 11 can be itself and have water-proof function, Other waterproof fittings can also be added and be combined with each other use, for example bonded using marine glue, be a kind of feasible scheme； It further, is reference with direction shown in Fig. 2, first flange 51 is set to the second end of pressure-resistant seal cabin 1, and up extends, To receive to form a cavity in 1 second end periphery of pressure-resistant seal cabin.

First sensor carries bucket 21 specifically as shown in figure 5, firstly, the entirety that first sensor carries bucket 21 is substantially justified Tubular, second flange 52 carry the first end side arrangement of bucket 21, second flange 52 and first flange 51 around first sensor By screw, nut cooperation connection, realize that pressure-resistant seal cabin 1 carries being connected and fixed for bucket 21 with first sensor；Secondly, first Recirculation hole 61 can be set to it is multiple, for example using first sensor carry bucket 21 length direction as reference data, first pass The outer wall that sensor carries bucket 21 defines the circulation band of a plurality of parallel arrangement, and every circulation takes and is respectively provided with multiple first recirculation holes 61, multiple recirculation holes carry the equal spacing in length direction arrangement of bucket 21 along first sensor, guarantee during dive, and first passes Sensor, which carries bucket 21, can be convenient for seawater circulation, and for water quality monitoring, dive is smooth also provides valuable help；Furthermore due to The inside that one sensor carries bucket 21 is enclosed the space received with first flange 51 and is connected, and pacifies so carrying in bucket 21 in first sensor After filling sensor, sensor can be electrically connected by lead and the monitoring instrument in pressure-resistant seal cabin 1, it is ensured that monitoring The smooth transmission of data.

In summary, deep-sea detecting dive cabin substantially use process is as follows:

1, monitoring instrument is put into through the first opening to pressure-resistant seal cabin 1, and the lead of monitoring instrument is pacified through watertight Dress hole 11 leads to outside, then first port is loaded onto the first opening, to complete the seal protection to monitoring instrument；

2, it is carried in first sensor and relevant sensor is installed on bucket 21, and sensor is drawn with what monitoring instrument was drawn Line is connected, and then realizes connection to first flange 51 and second flange 52 by screw, nut, at this time pressure-resistant seal cabin 1 and the One sensor carries bucket 21 and will be combined as a whole；

3, deep-sea detecting dive cabin is placed in Yu Haiyang, sensor is by the various data in real-time monitoring ocean, then Monitoring information is sent to monitoring instrument and is analyzed, and monitoring result is sent to specified device again by monitoring instrument, and staff is just Monitoring situation can be understood in time.

Compared with the existing technology, deep-sea detecting dive cabin described in embodiment of the present invention is additionally arranged first sensor carrying Bucket 21, related sensor can be installed on first sensor and carry on bucket 21, solve the prior art and be difficult to install sensor Problem.

In addition, handle 8 can be added in first end cover 41 for convenient for lifting by crane deep-sea detecting dive cabin.

A kind of improvement in deep-sea detecting dive cabin described in embodiment of the present invention can be as shown in figure 4, the pressure-resistant seal cabin 1 Inner wall be equipped with supporting table 12, the supporting table 12 around the pressure-resistant seal cabin 1 inner wall arrangement circularizes, the supporting table 12 are equipped with ring shaped slot 13 towards the surface of the first end cover 41, are equipped with sealing element, the first end cover in the ring shaped slot 13 41 abut against with the sealing element, and the side of the first end cover 41 couples with the inner thread of first opening.

Specifically, internal screw thread can be arranged in the inner wall of the first opening, external screw thread is set in the side of first end cover 41, so Handle 8 is added, in first end cover 41 afterwards to rotate first end cover 41, first end cover 41 to be screwed into the first opening；To After one end cap 41 is tightened, seawater is just difficult to penetrate into through the gap between first end cover 41 and the first opening, and first end cover at this time 41 will compress sealing element, form second water-proof wire, further enhance the waterproof performance of pressure-resistant seal cabin 1.

A kind of improvement in deep-sea detecting dive cabin can be as follows described in embodiment of the present invention, and the first flange 51, which is enclosed, to be received Watertight plug-in unit is equipped in space, the watertight plug-in unit couples with watertight mounting hole 11.

Watertight plug-in unit has very strong waterproof performance, after watertight plug-in unit couples in watertight mounting hole 11, pressure-resistant seal cabin 1 Interior monitoring instrument can be by watertight plug-in unit lead to outside, and guarantees that seawater can not be penetrated into through watertight plug-in unit to pressure-resistant seal In cabin 1, the waterproof performance of pressure-resistant seal cabin 1 is further enhanced.

A kind of improvement in deep-sea detecting dive cabin can be as shown in Figures 2 and 3 described in embodiment of the present invention, the first flange 51 side wall is equipped with the second recirculation hole 62, second recirculation hole 62 at least two, second recirculation hole 62 and described the One flange 51 encloses the space conducting received.

Specifically, four the second recirculation holes 62 can be arranged in the side wall of first flange 51, four the second recirculation holes 62 are with two Two opposite forms are arranged in four sides of first flange 51, so seawater can pass through respectively during carrying out dive A second recirculation hole 62 avoids forming biggish resistance between pressure-resistant seal cabin 1 and seawater, is that the dive in deep-sea detecting dive cabin is logical Freely provide valuable help.

A kind of improvement in deep-sea detecting dive cabin described in embodiment of the present invention can be as shown in figure 5, the first sensor The first end end face for carrying bucket 21 is equipped with third recirculation hole 63, and the third recirculation hole 63 carries bucket 21 with the first sensor Inside conducting.

When in use, seawater can enter in first flange 51 from the first recirculation hole 61, then through third recirculation hole 63 First sensor is entered to carry in bucket 21, since the side wall that first sensor carries bucket 21 is provided simultaneously with the second recirculation hole 62, So the circulation that first sensor carries 21 pairs of seawater of bucket is very strong, the fluency during dive ensure that really.

Furthermore it is also possible to which sensor mounting hole 7 is arranged on the first end end face that first sensor carries bucket 21, using When, sensor is placed in first sensor and carries the inside of bucket 21, and sensor is fixed on by sensor mounting hole 7 by screw On.

A kind of improvement in deep-sea detecting dive cabin can be as shown in Figures 1 to 3 described in embodiment of the present invention, the first flange 51 lateral wall is equipped with antenna installing hole 14.

When in use, antenna can be installed in antenna installing hole 14, since antenna installing hole 14 is placed in first flange On 51 lateral wall, so that antenna be avoided to be placed in confined space, it can guarantee signal strength when antenna carries out signal transmission.

A kind of improvement in deep-sea detecting dive cabin can be as shown in figs. 1 and 6 described in embodiment of the present invention, first sensing The second end that device carries bucket 21 is equipped with third flange 53；Deep-sea detecting dive cabin further includes that second sensor carries bucket 22, The first end that the second sensor carries bucket 22 is equipped with the 4th flange 54, the 4th flange 54 and the third flange 53 It connects, the inside that the second sensor carries bucket 22 is connected with the inside that the first sensor carries bucket 21；Described second passes The side wall that sensor carries bucket 22 is equipped with the 4th recirculation hole 64, the 4th recirculation hole 64 at least two, the 4th recirculation hole 64 with the second sensor carry bucket 22 inside be connected.

Second sensor carries bucket 22 specifically as shown in fig. 6, firstly, the entirety that second sensor carries bucket 22 is substantially justified Tubular, the 4th flange 54 carry the first end side arrangement of bucket 22, the 4th flange 54 and third flange 53 around second sensor By screw, nut cooperation connection, realize that second sensor carries bucket 22 and carries being connected and fixed for bucket 21 with first sensor；Its It is secondary, the 4th recirculation hole 64 can be set to it is multiple, for example using second sensor carry bucket 22 length direction as reference data, The outer wall that second sensor carries bucket 22 defines the circulation band of a plurality of parallel arrangement, and every circulation, which takes, is respectively provided with multiple 4th streams Through-hole 64, multiple 4th recirculation holes 64 carry the equal spacing in length direction arrangement of bucket 22 along second sensor, guarantee in dive Cheng Zhong, second sensor, which carries bucket 22, can be convenient for seawater circulation, and for water quality monitoring, dive is smooth also provides valuable help.

Bucket 22, the number of sensors that deep-sea detecting dive cabin is carried simultaneously are carried by adding second sensor It is increased, brings important help for deep-sea detecting.

A kind of improvement in deep-sea detecting dive cabin can be as follows described in embodiment of the present invention, and the first sensor carries bucket 21 second end is equipped with the second opening, and the first end that the second sensor carries bucket 22 is open equipped with third, and described second opens Mouth is conducted with third opening.

It is equipped with the second opening since first sensor carries bucket 21, second sensor carries bucket 22 and is open equipped with third, institute With after first sensor carries bucket 21 and second sensor and carries bucket 22 and be connected as one, first sensor carries bucket 21 and the Two sensors carry and are in accessible on state between bucket 22, smooth convenient for the flowing of seawater, are further deep-sea detecting The dive fluency in dive cabin provides help.

A kind of improvement in deep-sea detecting dive cabin can be as shown in Figures 6 and 7 described in embodiment of the present invention, second sensing The second end that device carries bucket 22 is equipped with the 4th opening, and the inner wall of the 4th opening is equipped with the first keyway 31；The deep-sea detecting Dive cabin further includes second end cover 42, and the second end cover 42 couples with the second end that the second sensor carries bucket 22, institute It states second end cover 42 and is equipped with the second keyway 32 in the position opposite with first keyway 31, second keyway 32 and described the The opposite splicing of one keyway 31.

It will be recalled from above that part sensor can be mounted on sensor mounting hole using screw, but not all kinds Sensor is applicable in and is installed using screw, the first keyway 31 is added on bucket 22 so carrying in second sensor, in second end cover The second keyway 32 is added on 42, can increase the mounting means of sensor, and operative sensor is enabled to be mounted on the first keyway 31 and second in keyway 32, so that increasing deep-sea detecting dive cabin can be selected the range of sensor.

Wherein, the middle part of second end cover 42 also can be set to hollow structure, further smooth convenient for the flowing of seawater, into One step provides help for the dive fluency in deep-sea detecting dive cabin.

A kind of deep sea exploring device is equipped with monitor in the pressure-resistant seal cabin 1 including above-mentioned deep-sea detecting dive cabin Device, the first sensor carry and are equipped with sensor in bucket 21, and the monitoring instrument and the sensor are electrically connected, the prison It surveys instrument and is electrically connected with antenna.

In conjunction with above it will be appreciated that, after deep sea exploring device dive, sensor is by the various data in real-time monitoring ocean, so Monitoring information is sent to monitoring instrument and is analyzed afterwards, and monitoring result is sent to specified device again by monitoring instrument, staff Monitoring situation can be understood in time.

Similarly, deep sea exploring device can also add second sensor and carry bucket 22, to install more sensors, increase The monitoring content of deep sea exploring device.

The above is a preferred embodiment of the present invention, it is noted that for those skilled in the art For, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also considered as Protection scope of the present invention.

Claims (9)

1. a kind of deep-sea detecting dive cabin, which is characterized in that

Bucket is carried including pressure-resistant seal cabin and first sensor；

The first end of the pressure-resistant seal cabin is equipped with the first opening, and first opening is equipped with first end cover, the first end Lid is sealingly connected with first opening, and the first end cover is equipped with handle；

The second end of the pressure-resistant seal cabin is equipped with first flange and watertight mounting hole, and the watertight mounting hole is placed in described first Flange encloses in the space received, and the watertight mounting hole is connected with the inside of the pressure-resistant seal cabin；

The side wall that the first sensor carries bucket is equipped with the first recirculation hole, first recirculation hole at least two, and described the One recirculation hole and the first sensor are carried and are connected inside bucket；

The first end that the first sensor carries bucket is equipped with second flange, and the second flange couples with the first flange, The space received is enclosed with the first flange and is connected in the inside that the first sensor carries bucket；

The side wall of the first flange is equipped with the second recirculation hole, second recirculation hole at least two, second recirculation hole The space received is enclosed with the first flange to be connected.

2. deep-sea detecting dive according to claim 1 cabin, which is characterized in that the inner wall of the pressure-resistant seal cabin is equipped with and holds Saddle, the supporting table are circularized around the inner wall arrangement of the pressure-resistant seal cabin, and the supporting table is towards the first end cover Surface be equipped with ring shaped slot, sealing element is equipped in the ring shaped slot, the first end cover is abutted against with the sealing element, and described The side of first end cover couples with the inner thread of first opening.

3. deep-sea detecting dive according to claim 1 cabin, which is characterized in that the first flange, which is enclosed in the space received, to be set There is watertight plug-in unit, the watertight plug-in unit couples with watertight mounting hole.

4. deep-sea detecting dive according to claim 1 cabin, which is characterized in that the first sensor carries the first of bucket End face is held to be equipped with third recirculation hole, the third recirculation hole is connected with the inside that the first sensor carries bucket.

5. deep-sea detecting dive according to claim 1 cabin, which is characterized in that the lateral wall of the first flange is equipped with day Line mounting hole.

6. deep-sea detecting dive according to claim 1 cabin, which is characterized in that

The second end that the first sensor carries bucket is equipped with third flange；

Deep-sea detecting dive cabin further includes that second sensor carries bucket, and the first end that the second sensor carries bucket is equipped with 4th flange, the 4th flange couple with the third flange, and the second sensor carries the inside and described first of bucket Sensor carries the inside conducting of bucket；

The side wall that the second sensor carries bucket is equipped with the 4th recirculation hole, the 4th recirculation hole at least two, and described the Four recirculation holes and the second sensor are carried and are connected inside bucket.

7. deep-sea detecting dive according to claim 6 cabin, which is characterized in that the first sensor carries the second of bucket End is equipped with the second opening, and the first end that the second sensor carries bucket is equipped with third and is open, second opening and described the Three openings are conducted.

8. deep-sea detecting dive according to claim 7 cabin, which is characterized in that

The second end that the second sensor carries bucket is equipped with the 4th opening, and the inner wall of the 4th opening is equipped with the first keyway；

Deep-sea detecting dive cabin further includes second end cover, and the second end cover and the second sensor carry the second of bucket End connection, the second end cover the position opposite with first keyway be equipped with the second keyway, second keyway with it is described First keyway is opposite to be spliced.

9. a kind of deep sea exploring device, which is characterized in that including claim 1 to 8 described in any item deep-sea detecting dives cabin, Monitoring instrument is equipped in the pressure-resistant seal cabin, the first sensor carries and is equipped with sensor in bucket, the monitoring instrument with The sensor is electrically connected, and the monitoring instrument is electrically connected with antenna.