CN216424685U - Spherical submerged buoy main body - Google Patents

Abstract

The utility model discloses a spherical submerged buoy main body, which comprises a spherical cabin body and a buoyancy material, wherein the spherical cabin body comprises an upper hemispherical shell and a lower hemispherical shell which are enclosed into a sphere together, and the buoyancy material comprises an upper floating body arranged around the upper hemispherical shell and a lower floating body arranged around the lower hemispherical shell; the upper floating body is connected with the upper hemispherical shell, and the lower floating body is connected with the lower hemispherical shell. Go up the body and the surface of lower body for cylindrical, the internal surface be with the spherical surface of spherical cabin body surface conformal, be equipped with the through-hole that is used for the connecting piece to pass on the upper and lower body, the gluing has the carbon fiber tube who is used for guaranteeing the joint strength and the wearability of body in the through-hole, the body surface coating has the glass steel that is used for increasing body bulk strength of certain thickness. Compared with the prior art, the utility model discloses a spherical cabin body adopts conformal design with upper and lower floater, does benefit to the installation when guaranteeing body intensity, the utility model discloses still have miniaturization, lightweight and have the advantage of better gesture under water.

Description

Spherical submerged buoy main body

Technical Field

The utility model belongs to the technical field of the deep sea equipment is stealthily marked, especially, relate to a spherical stealthily mark main part.

Background

The submerged buoy system is an instrument and equipment system for long-term fixed-point observation in marine environment, and generally comprises a main floating body, a submerged buoy main body, a floating ball, a releaser, an anchor block, a cable, a connecting piece and the like. The submerged buoy main body is arranged at a certain ocean depth, and underwater acoustic information such as ocean environmental noise can be effectively observed for a long time under a certain sea condition.

The submerged buoy body generally requires certain reserve buoyancy, so the submerged buoy body generally consists of an electronic pressure-resistant cabin and certain buoyancy materials. The submerged buoy main body structure in the prior art comprises: the electronic pressure-resistant cabin comprises an electronic pressure-resistant cabin body, a buoyancy material and a buoyancy material mounting frame.

The buoyancy material among the prior art has the installation difficulty, and the submerged buoy main part is bulky, and whole weight is heavy, lays, retrieves the difficulty, and the submerged buoy main part is poor in the gesture under water problem.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Based on this, the utility model provides a spherical submerged buoy main part, this spherical submerged buoy main part aim at solving submerged buoy main part among the prior art bulky, the weight is heavy and lay and retrieve the difficulty and submerged buoy main part at the poor problem of gesture under water.

(II) technical scheme

In order to solve the technical problem, the utility model provides a spherical submerged buoy main body, which comprises a spherical cabin body and buoyancy materials, wherein the spherical cabin body comprises an upper hemispherical shell and a lower hemispherical shell which jointly enclose into a sphere, and the buoyancy materials comprise an upper floating body arranged around the upper hemispherical shell and a lower floating body arranged around the lower hemispherical shell; the upper hemispherical shell and the lower hemispherical shell are detachably connected; the upper floating body is connected with the upper hemispherical shell, and the lower floating body is connected with the lower hemispherical shell.

Preferably, the spherical submerged buoy body further comprises a first threaded connector, a second threaded connector and a third threaded connector; the periphery of one side, close to the lower hemispherical shell, of the upper hemispherical shell is provided with an upper flange, the periphery of one side, close to the upper hemispherical shell, of the lower hemispherical shell is provided with a lower flange, the upper flange is provided with a spherical shell upper connecting hole penetrating through the upper flange, the lower flange is provided with a spherical shell lower connecting hole penetrating through the lower flange, and the upper hemispherical shell and the lower hemispherical shell are detachably connected by simultaneously penetrating through the spherical shell upper connecting hole and the spherical shell lower connecting hole through the first threaded connecting piece; the upper flange is further provided with an upper flange connecting hole penetrating through the upper flange, the lower flange is further provided with a lower flange connecting hole penetrating through the lower flange, the upper floating body is provided with an upper floating body connecting hole penetrating through the upper floating body, the lower floating body is provided with a lower floating body connecting hole penetrating through the lower floating body, the upper floating body is connected with the upper hemispherical shell through the second threaded connecting piece penetrating through the upper floating body connecting hole and the upper flange connecting hole, and the lower floating body is connected with the lower hemispherical shell through the third threaded connecting piece penetrating through the lower floating body connecting hole and the lower flange connecting hole.

Preferably, the second threaded connecting piece comprises a second screw and a second nut matched with the second screw, an upper carbon fiber pipe is arranged in the upper connecting hole of the floating body, the second screw penetrates through the upper carbon fiber pipe, the second nut is arranged at one end, far away from the lower floating body, of the upper floating body, and a first corrosion-resistant plate is arranged between the second nut and the upper floating body; the third threaded connecting piece comprises a third screw and a third nut matched with the third screw, a lower carbon fiber pipe is arranged in the upper connecting hole of the floating body, the third screw penetrates through the lower carbon fiber pipe, the third nut is arranged at one end, far away from the upper floating body, of the lower floating body, and a second corrosion-resistant plate is arranged between the third nut and the lower floating body; the surfaces of the upper floating body and the lower floating body are coated with glass fiber reinforced plastics with certain thickness.

Preferably, the upper carbon fiber tube is fixed in the upper connecting hole of the floating body in an adhesive manner, and the lower carbon fiber tube is fixed in the lower connecting hole of the floating body in an adhesive manner; the first corrosion-resistant plate is fixed with the upper floating body in a gluing mode, and the second corrosion-resistant plate is fixed with the lower floating body in a gluing mode.

Preferably, the volume of the upper float is greater than the volume of the lower float.

Preferably, one end of the upper hemispherical shell, which is far away from the lower hemispherical shell, is provided with an upper hanging ring, the upper hanging ring is provided with an upper hanging hole penetrating through the upper hanging ring, an upper nonmetal isolation sleeve is embedded in the upper hanging hole, and the upper nonmetal isolation sleeve comprises an upper sleeve main body which is hollow cylindrical as a whole and upper retaining rings which are respectively protruded from two ends of the upper sleeve main body; one end of the lower hemispherical shell, which is far away from the upper hemispherical shell, is provided with a lower lifting ring, a lower lifting hole penetrating through the lower lifting ring is formed in the lower lifting ring, a lower nonmetal isolation sleeve is embedded in the lower lifting hole, and the lower nonmetal isolation sleeve comprises a lower sleeve main body which is integrally hollow cylindrical and a lower retaining ring which is formed by protruding two ends of the lower sleeve main body respectively.

Preferably, the lower flange is provided with a plurality of mounting lug plates, and each mounting lug plate is provided with a mounting hole penetrating through the mounting lug plate.

Preferably, the spherical cabin body is still including locating the last hemisphere shell is kept away from the last annular support of lower hemisphere shell one end, go up rings accept in go up the annular support, it includes upper plate and last round bar to go up the annular support, the upper plate is whole to be the circular ring platelike, the quantity of going up the round bar is a plurality of and a plurality of go up the round bar and encircle the axle center setting of upper plate, it is a plurality of go up the one end of round bar syntropy with the upper plate is fixed continuous, and is a plurality of go up the other end of round bar syntropy with the last hemisphere shell is fixed continuous, be equipped with a plurality of bolt holes on the upper plate.

Preferably, the spherical cabin body is still including locating lower half spherical shell is kept away from the lower annular support of last half spherical shell one end, rings accept down in the lower annular support, lower annular support includes lower plate and lower round bar, the lower plate is whole to be the annular plate form, the quantity of lower round bar is a plurality of and a plurality of lower round bar encircles the axle center setting of lower plate is a plurality of lower round bar syntropy one end with the lower plate is fixed continuous, a plurality of lower round bar syntropy the other end with lower half spherical shell is fixed continuous, be equipped with a plurality of lower bolt holes on the lower plate.

Preferably, will go up hemisphere shell and last annular support are whole to be established to main part upper portion, the whole appearance of going up the body is cylindrical, the inner chamber shape of going up the body with the shape phase-match on main part upper portion, the inner chamber of going up the body includes: the upper semi-spherical shell comprises a cylindrical upper first cavity matched with the shape of the upper annular bracket and a semi-spherical upper second cavity matched with the shape of the upper semi-spherical shell; will lower hemisphere shell and lower annular support are whole to be established to the main part lower part, the whole appearance of lower body is cylindrical, the inner chamber shape of lower body with the shape phase-match of main part lower part, the inner chamber of lower body includes: the lower semi-spherical shell comprises a cylindrical lower first cavity matched with the lower annular bracket in shape and a semi-spherical lower second cavity matched with the lower semi-spherical shell in shape.

(III) advantageous effects

The utility model discloses compare with prior art, the utility model discloses spherical mark main part that dives's beneficial effect mainly includes:

the utility model discloses an among the spherical submerged buoy main part, based on structure and the mounting means of spherical cabin body appearance structural design buoyancy material, the spherical cabin body adopts conformal design's structure with buoyancy material, simultaneously through set up the carbon fiber pipe in the body mounting hole, surface coating glass steel connects the face bonding high strength connecting plate, increases the joint strength of body. The spherical submerged buoy main body of the utility model has the advantages of miniaturization, light weight, simple mounting structure and good posture under water.

Drawings

The features and advantages of the invention will be more clearly understood by reference to the accompanying drawings, which are schematic and should not be understood as imposing any limitation on the invention, in which:

fig. 1 is a perspective view of the overall structure of a spherical submerged buoy main body according to an embodiment of the present invention;

fig. 2 is a front view of the overall structure of the spherical submerged buoy main body according to the embodiment of the invention;

fig. 3 is a perspective view of a spherical cabin in the spherical submerged buoy main body according to the embodiment of the present invention;

fig. 4 is a front view of a spherical cabin in a spherical submerged buoy body according to an embodiment of the present invention;

fig. 5 is a structural view of an upper float in a spherical submerged buoy main body according to an embodiment of the present invention;

fig. 6 is a structural view of a lower float in a spherical submerged buoy main body according to an embodiment of the present invention;

fig. 7 is a structural view of an upper non-metallic spacer in the spherical submerged buoy main body according to the embodiment of the present invention.

Description of reference numerals:

1. the anti-corrosion device comprises an upper hemispherical shell, 2, a lower hemispherical shell, 3, an upper flange, 4, a lower flange, 5, an upper floating body, 6, a lower floating body, 7, a first threaded connecting piece, 8, a second threaded connecting piece, 9, a third threaded connecting piece, 10, an upper carbon fiber pipe, 11, a first anti-corrosion plate, 12, a mounting lug plate, 13, a lower lifting ring, 14, a lower carbon fiber pipe, 15, a second anti-corrosion plate, 16, an upper lifting ring, 17, an upper non-metal isolating sleeve, 18, a lower non-metal isolating sleeve, 19, an upper annular bracket, 20, a lower annular bracket, 51, a floating body upper connecting hole, 52, an upper first cavity, 53, an upper second cavity, 61, a floating body lower connecting hole, 62, a lower first cavity, 63, a lower second cavity, 71, a first bolt, 72, a first nut, 81, a second screw, 82, a second nut, 91, a third screw, 92, 131, a lower lifting hole, 161. the structure of the hydraulic lifting device comprises an upper lifting hole, 171, an upper sleeve body, 172, an upper retaining ring, 191, an upper base plate, 192, an upper round rod, 1911, an upper bolt hole, 201, a lower base plate, 202, a lower round rod, 2011, a lower bolt hole and 121, a mounting hole.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention can be embodied in many different forms other than those specifically described herein, and it will be apparent to those skilled in the art that similar modifications can be made without departing from the spirit and scope of the invention, and it is therefore not to be limited to the specific embodiments disclosed below.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the two elements may be mechanically or electrically connected, directly or indirectly connected through an intermediate medium, or connected through the inside of the two elements, or "in transmission connection", that is, connected in a power manner through various suitable manners such as belt transmission, gear transmission, or sprocket transmission. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

The invention will be further described with reference to the accompanying fig. 1-7.

Referring to fig. 1-4, the utility model discloses a spherical submerged buoy main body, which comprises a spherical cabin body, a buoyancy material, a first threaded connecting piece 7, a second threaded connecting piece 8 and a third threaded connecting piece 9; the spherical cabin body comprises an upper hemispherical shell 1 and a lower hemispherical shell 2 which jointly enclose a sphere, an upper flange 3 is arranged on the periphery of one side of the upper hemispherical shell 1 close to the lower hemispherical shell 2, a lower flange 4 is arranged on the periphery of one side of the lower hemispherical shell 2 close to the upper hemisphere of the upper hemispherical shell 1, an upper spherical shell connecting hole penetrating through the upper flange 3 is formed in the upper flange 3, a lower spherical shell connecting hole penetrating through the lower flange 4 is formed in the lower flange 4, and the upper spherical shell connecting hole and the lower spherical shell connecting hole are simultaneously penetrated through by a first threaded connecting piece 7 to realize the detachable connection between the upper hemispherical shell 1 and the lower hemispherical shell 2; the buoyancy material comprises an upper floating body 5 arranged around the upper hemispherical shell 1 and a lower floating body 6 arranged around the lower hemispherical shell 2; the upper flange 3 is further provided with an upper flange connecting hole penetrating through the upper flange, the lower flange 4 is further provided with a lower flange connecting hole penetrating through the lower flange connecting hole, the upper floating body 5 is provided with an upper floating body connecting hole 51 penetrating through the upper floating body, the lower floating body 6 is provided with a lower floating body connecting hole 61 penetrating through the lower floating body connecting hole, the upper floating body 5 and the upper flange connecting hole are simultaneously penetrated through the second threaded connecting piece 8 to realize the connection between the upper floating body 5 and the upper hemispherical shell 1, and the lower floating body connecting hole 61 and the lower flange connecting hole are simultaneously penetrated through the third threaded connecting piece 9 to realize the connection between the lower floating body 6 and the lower hemispherical shell 2.

More specifically, the first threaded connection 7 is a bolt and a nut. The upper flange 3 is connected with the upper hemispherical shell 1 in a welding way, and the lower flange 4 is connected with the lower hemispherical shell 2 in a welding way.

In this embodiment, the structure and the mounting means of buoyancy material are based on the design of spherical cabin body appearance structural design, and the conformal structure is adopted in the outer appearance of the spherical cabin body and the inner chamber of buoyancy material and the spherical cabin body of buoyancy material cladding, adopts this structure, can reduce the utility model discloses a whole volume and the total weight of spherical subsurface buoy main part.

In the present embodiment, on one hand, the spherical cabin is formed by connecting and combining an upper hemispherical shell 1 and a lower hemispherical shell 2 through a first threaded connection 7. In order to improve the convenience of dismouting, weld flange 3 on last hemisphere shell 1, weld flange 4 under lower hemisphere shell 2 to set up connecting hole on the spherical shell on last flange 3, be equipped with on flange 4 and set up connecting hole under the spherical shell, so, run through the flange through first threaded connection spare 7, can realize quick assembly disassembly. On the other hand, the utility model discloses a to flange and body structure design, when the episphere shell 1 of the spherical cabin body and lower hemisphere shell 2 uncap, need not dismantle body 5 and lower body 6. Thus, the convenience of use and the flexibility of disassembly and assembly can be further improved. The method specifically comprises the following steps: the upper flange 3 is also provided with an upper flange connecting hole which penetrates through the upper flange, the upper floating body 5 is provided with an upper floating body connecting hole 51 which penetrates through the upper floating body, and the upper floating body 5 is connected with the upper hemispherical shell 1 by simultaneously penetrating through the upper floating body connecting hole 51 and the upper flange connecting hole through a second threaded connecting piece 8; the lower flange 4 is also provided with a lower flange connecting hole penetrating through the lower flange, the lower floating body 6 is provided with a lower floating body connecting hole 61 penetrating through the lower floating body, and the lower floating body 6 is connected with the lower hemispherical shell 2 by simultaneously penetrating through the lower floating body connecting hole 61 and the lower flange connecting hole through a third threaded connecting piece 9.

Referring to fig. 5-6, according to the embodiment of the present invention, the second threaded connection member 8 includes a second screw 81 and a second nut 82 engaged with the second screw 81, an upper carbon fiber tube 10 is disposed in the upper connection hole 51 of the floating body, the second screw 81 penetrates the upper carbon fiber tube 10, the second nut 82 is disposed at one end of the upper floating body 5 away from the lower floating body 6, and a first corrosion-resistant plate 11 is disposed between the second nut 82 and the upper floating body 5.

More specifically, the third threaded connector 9 includes a third screw 91 and a third nut 92 engaged with the third screw 91, a lower carbon fiber tube 14 is disposed in the floating body upper connection hole 51, the third screw 91 penetrates through the lower carbon fiber tube 14, the third nut 92 is disposed at one end of the lower floating body 6 far away from the upper floating body 5, and a second corrosion-resistant plate 15 is disposed between the third nut 92 and the lower floating body 6.

More specifically, the first corrosion-resistant plate 11 and the second corrosion-resistant plate 15 are both made of high-strength plates.

More specifically, the upper carbon fiber tube 10 is fixed in the upper connection hole 51 of the floating body by means of gluing, and the lower carbon fiber tube 14 is fixed in the lower connection hole 61 of the floating body by means of gluing; the first corrosion-resistant plate 11 is fixed with the upper floating body 5 in an adhering mode, and the second corrosion-resistant plate 15 is fixed with the lower floating body 6 in an adhering mode.

In the above embodiment, the carbon fiber tube is adhered in the floating body connecting hole, so that the floating body can be prevented from being worn by the screw rod in direct contact with the floating body, and the strength and the wear resistance of the screw rod installation position are improved. In addition, through set up corrosion-resistant panel between body and nut, can avoid the stress concentration problem of body and screw rod junction, make the body atress more even.

According to the utility model discloses a specific embodiment, the volume of upper floater 5 is greater than the volume of lower floater 6. In this embodiment, through this structure, can make the floating core position of stealthily mark main part be not less than the focus position, make the utility model discloses a spherical stealthily mark main part has better gesture under water.

Please refer to fig. 7, according to the embodiment of the present invention, an upper hanging ring 16 is disposed at one end of the upper hemispherical shell 1 away from the lower hemispherical shell 2, an upper hanging hole 161 penetrating through the upper hanging ring 16 is disposed on the upper hanging ring 16, an upper non-metal isolation sleeve 17 is embedded in the upper hanging hole 161, and the upper non-metal isolation sleeve 17 includes an upper sleeve main body 171 which is hollow cylindrical as a whole and an upper baffle ring 172 which is protruded from both ends of the upper sleeve main body 171.

According to the utility model discloses a specific embodiment, the one end that upper hemisphere shell 1 was kept away from to lower hemisphere shell 2 is equipped with rings 13 down, is equipped with the lower lewis hole 131 that runs through on the rings 13 down, and nonmetal spacer 18 is equipped with down to the embedding of lewis hole 131 down, and nonmetal spacer 18 is including whole lower cover main part that is hollow cylinder and by the both ends difference bellied lower fender ring of lower cover main part down.

More specifically, the upper suspension ring 16 has the same structure as the lower suspension ring 13, and the upper non-metallic insulating sheath 17 has the same structure as the lower non-metallic insulating sheath 18.

In this embodiment, the top center positions of the upper hemispherical shell 1 and the lower hemispherical shell 2 are respectively provided with an upper hanging ring 16 and a lower hanging ring 13, which are used for connecting the spherical submerged buoy main body with the anchoring system. When the spherical cabin is used, because the metal material of the spherical cabin body is often inconsistent with the material of the metal connecting piece of the anchoring system, the upper nonmetal isolating sleeve 17 is embedded in the upper hanging hole 161, and the lower nonmetal isolating sleeve 18 is embedded in the lower hanging hole 131, so that the electrochemical corrosion in the marine environment is avoided. The design of the upper retaining ring 172 and the lower retaining ring structure is beneficial to preventing the nonmetal isolation sleeve (the upper nonmetal isolation sleeve 17 and the lower nonmetal isolation sleeve 18) from falling off after being embedded into the hanging hole.

According to the utility model discloses a specific embodiment is equipped with a plurality of installation otic placodes 12 on the lower flange 4, is equipped with the mounting hole 121 that runs through on every installation otic placode 12. In this embodiment, through setting up installation otic placode 12 to set up mounting hole 121, be convenient for as the hanging point of retrieving the rope during construction with mounting hole 121 the utility model discloses the safety of construction is ensured simultaneously with retrieving in the cloth of spherical submerged buoy main part. In addition, when the spherical submerged buoy main body is transported, the mounting lug plate 12 is also used for being connected with a transportation tool, so that the fixation in the transportation process is realized.

According to the utility model discloses a specific embodiment, the spherical cabin body is still including locating the last annular bracket 19 that the hemisphere shell 1 kept away from 2 one end of lower hemisphere shell, go up rings 16 and accept in last annular bracket 19, go up annular bracket 19 and include upper plate 191 and last round bar 192, upper plate 191 is whole to be the circular ring platelike, the quantity of going up round bar 192 is a plurality of and a plurality of axle center setting that go up round bar 192 and encircle upper plate 191, a plurality of one end of going up round bar 192 syntropy links to each other with upper plate 191 is fixed, a plurality of other ends of going up round bar 192 syntropy link to each other with last hemisphere shell 1 is fixed, be equipped with a plurality of upper bolt holes 1911 on the upper plate 191.

More specifically, the spherical cabin further includes a lower annular support 20 disposed at one end of the lower hemispherical shell 2, which is far away from one end of the upper hemispherical shell 1, the lower suspension ring 13 is accommodated in the lower annular support 20, the lower annular support 20 includes a lower base plate 201 and a lower rod 202, the lower base plate 201 is integrally in a circular-ring plate shape, the lower rods 202 are disposed in a plurality of and a plurality of lower rods 202 surround the axis of the lower base plate 201, one ends of the lower rods 202 in the same direction are fixedly connected with the lower base plate 201, the other ends of the lower rods 202 in the same direction are fixedly connected with the lower hemispherical shell 2, and the lower base plate 201 is provided with a plurality of lower bolt holes 2011.

More specifically, the upper ring support 19 and the lower ring support 20 are identical in structure.

In this embodiment, the upper ring support 19 and the lower ring support 20 are provided to protect the watertight connector on the spherical shell from being collided. The upper and lower annular supports 19, 20 may also serve as support members for supporting the upper and lower hemispherical shells 1, 2.

In specific implementation, the end of the upper round bar 192 is welded to the upper hemispherical shell 1, and the end of the lower round bar 202 is welded to the lower hemispherical shell 2. The upper bolt holes 1911 on the upper base plate 191 and the lower bolt holes 2011 on the lower base plate 201 are used for mounting external instruments.

According to the utility model discloses a concrete implementation mode establishes upper half spherical shell 1 and upper annular support 19 wholly to main part upper portion, and the whole appearance of upper floating body 5 is cylindrical, and the inner chamber shape of upper floating body 5 and the shape phase-match on main part upper portion, the inner chamber of upper floating body 5 includes: a cylindrical upper first chamber 52 matching the outer shape of the upper annular bracket 19, a hemispherical upper second chamber 53 matching the outer shape of the upper hemispherical shell 1; set up lower hemisphere shell 2 and lower annular support 20 wholly into the main part lower part, lower body 6's whole appearance is cylindrical, and lower body 6's inner chamber shape and the shape phase-match of main part lower part, lower body 6's inner chamber includes: a cylindrical lower first cavity 62 matched with the shape of the lower annular bracket 20, and a semi-spherical lower second cavity 63 matched with the shape of the lower hemispherical shell 2.

In this embodiment, the outer surfaces of the upper floating body 5 and the lower floating body 6 are designed to be cylindrical structures, the inner wall of the buoyant material is a structure that is similar to the shape of the spherical cabin body, and the buoyant material is attached to the spherical cabin body and installed. Through this structure, can further reduce the utility model discloses a whole volume of spherical submerged buoy main part, and make it have better gesture under water.

Although the embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art may make various modifications and variations without departing from the spirit and scope of the invention, and such modifications and variations fall within the scope defined by the appended claims.

Claims (10)

1. The spherical submerged buoy main body is characterized by comprising a spherical cabin body and a buoyancy material, wherein the spherical cabin body comprises an upper hemispherical shell and a lower hemispherical shell which jointly enclose into a sphere, and the buoyancy material comprises an upper floating body arranged around the upper hemispherical shell and a lower floating body arranged around the lower hemispherical shell; the upper hemispherical shell and the lower hemispherical shell are detachably connected; the upper floating body is connected with the upper hemispherical shell, and the lower floating body is connected with the lower hemispherical shell.

2. The spherical submersible buoy body of claim 1, further comprising a first threaded connection, a second threaded connection and a third threaded connection; the periphery of one side, close to the lower hemispherical shell, of the upper hemispherical shell is provided with an upper flange, the periphery of one side, close to the upper hemispherical shell, of the lower hemispherical shell is provided with a lower flange, the upper flange is provided with a spherical shell upper connecting hole penetrating through the upper flange, the lower flange is provided with a spherical shell lower connecting hole penetrating through the lower flange, and the upper hemispherical shell and the lower hemispherical shell are detachably connected by simultaneously penetrating through the spherical shell upper connecting hole and the spherical shell lower connecting hole through the first threaded connecting piece; the upper flange is also provided with an upper flange connecting hole penetrating through the upper flange, the lower flange is also provided with a lower flange connecting hole penetrating through the lower flange, the upper floating body is provided with an upper floating body connecting hole penetrating through the upper floating body, the lower floating body is provided with a lower floating body connecting hole penetrating through the lower floating body, the upper floating body is connected with the upper hemispherical shell by penetrating through the upper floating body connecting hole and the upper flange connecting hole simultaneously through the second threaded connecting piece, and the lower floating body is connected with the lower hemispherical shell by penetrating through the lower floating body connecting hole and the lower flange connecting hole simultaneously through the third threaded connecting piece.

3. The spherical submerged buoy body according to claim 2, wherein the second threaded connecting piece comprises a second screw and a second nut matched with the second screw, an upper carbon fiber pipe is arranged in the upper connecting hole of the floating body, the second screw penetrates through the upper carbon fiber pipe, the second nut is arranged at one end of the upper floating body, which is far away from the lower floating body, and a first corrosion-resistant plate is arranged between the second nut and the upper floating body; the third threaded connecting piece comprises a third screw and a third nut matched with the third screw, a lower carbon fiber pipe is arranged in the upper connecting hole of the floating body, the third screw penetrates through the lower carbon fiber pipe, the third nut is arranged at one end, far away from the upper floating body, of the lower floating body, and a second corrosion-resistant plate is arranged between the third nut and the lower floating body; the surfaces of the upper floating body and the lower floating body are coated with glass fiber reinforced plastics with certain thickness.

4. The spherical submerged buoy body of claim 3, wherein the upper carbon fiber tube is fixed in the upper connecting hole of the floating body by means of gluing, and the lower carbon fiber tube is fixed in the lower connecting hole of the floating body by means of gluing; the first corrosion-resistant plate is fixed with the upper floating body in a gluing mode, and the second corrosion-resistant plate is fixed with the lower floating body in a gluing mode.

5. The spherical submerged buoy body of claim 4, wherein the volume of the upper buoy is greater than the volume of the lower buoy.

6. The spherical subsurface buoy body according to claim 5, wherein an upper hanging ring is arranged at one end of the upper hemispherical shell, which is far away from the lower hemispherical shell, an upper hanging hole penetrating through the upper hanging ring is arranged on the upper hanging ring, an upper nonmetal isolating sleeve is embedded in the upper hanging hole, and the upper nonmetal isolating sleeve comprises an upper sleeve body which is hollow and cylindrical as a whole and upper baffle rings which are respectively protruded from two ends of the upper sleeve body; one end of the lower hemispherical shell, which is far away from the upper hemispherical shell, is provided with a lower lifting ring, a lower lifting hole penetrating through the lower lifting ring is formed in the lower lifting ring, a lower nonmetal isolation sleeve is embedded in the lower lifting hole, and the lower nonmetal isolation sleeve comprises a lower sleeve main body which is integrally hollow cylindrical and a lower retaining ring which is formed by protruding two ends of the lower sleeve main body respectively.

7. A spherical submersible buoy body as claimed in claim 6 wherein the lower flange is provided with a plurality of mounting lugs, each mounting lug being provided with a mounting hole therethrough.

8. The spherical submerged buoy main body according to claim 7, wherein the spherical cabin further comprises an upper annular support which is arranged at one end of the upper hemispherical shell far away from the lower hemispherical shell, the upper hoisting ring is accommodated in the upper annular support, the upper annular support comprises an upper base plate and an upper round rod, the upper base plate is integrally in a circular plate shape, the upper round rods are arranged in a plurality of and a plurality of axial centers of the upper base plate around which the upper round rods surround, one end of the upper round rods in the same direction is fixedly connected with the upper base plate, the other end of the upper round rods in the same direction is fixedly connected with the upper hemispherical shell, and a plurality of upper bolt holes are formed in the upper base plate.

9. The spherical submerged buoy main body according to claim 8, wherein the spherical cabin further comprises a lower annular support which is arranged at one end, far away from the upper hemispherical shell, of the lower hemispherical shell, the lower hanging ring is accommodated in the lower annular support, the lower annular support comprises a lower base plate and a lower round rod, the lower base plate is integrally in a circular plate shape, the lower round rods are arranged in a plurality of numbers and are arranged around the axis of the lower base plate, one ends, in the same direction, of the lower round rods are fixedly connected with the lower base plate, the other ends, in the same direction, of the lower round rods are fixedly connected with the lower hemispherical shell, and a plurality of lower bolt holes are formed in the lower base plate.

10. The spherical submerged buoy body according to claim 9, wherein the upper hemispherical shell and the upper annular bracket are integrally formed as an upper part of the body, the upper floating body has a cylindrical overall shape, the shape of an inner cavity of the upper floating body is matched with the shape of the upper part of the body, and the inner cavity of the upper floating body comprises: the upper semi-spherical shell comprises a cylindrical upper first cavity matched with the shape of the upper annular bracket and a semi-spherical upper second cavity matched with the shape of the upper semi-spherical shell; will lower hemisphere shell and lower annular support are whole to be established to the main part lower part, the whole appearance of lower body is cylindrical, the inner chamber shape of lower body with the shape phase-match of main part lower part, the inner chamber of lower body includes: the lower semi-spherical shell comprises a cylindrical lower first cavity matched with the lower annular bracket in shape and a semi-spherical lower second cavity matched with the lower semi-spherical shell in shape.

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