CN111762302B - Rolling and throwing movable ocean exploration protection cage capable of supplying oxygen in whole process - Google Patents

Abstract

The invention discloses a rolling and throwing movable ocean exploration protection cage capable of supplying oxygen in the whole process, which comprises a metal cage, an air bag and an air suction pipe, wherein a rolling steel cable is connected to the top of the metal cage in a clamping manner, an air guide threaded pipe penetrates through the middle of the rolling steel cable, a first threaded hose and a second threaded hose are respectively connected to two sides of the bottom of an air guide cavity in a penetrating manner, the pipe end of the first threaded hose is connected with the air bag, a fixed cylinder is fixed on the inner wall of the top of the metal cage, the pipe end of the second threaded hose is connected with one end of a connecting pipe, the other end of the connecting pipe is fixedly provided with an air suction cover, and a latex tape is embedded on the outer wall of the middle of the connecting pipe. This movable ocean detection protection cage is put in rolling of whole oxygen suppliment, and the rolling of being convenient for protect the cage is gone on with the operation of putting in, protects the whole oxygen suppliment that the cage used simultaneously, improves the service function nature of oxygen, reduces the waste of oxygen volume, makes things convenient for its regulation that switches on and discharge rate.

Description

Rolling and throwing movable ocean exploration protection cage capable of supplying oxygen in whole process

Technical Field

The invention relates to the technical field of ocean engineering, in particular to a rolling and throwing movable ocean exploration protection cage capable of supplying oxygen in the whole process.

Background

In surveying the internal environment and the marine organism of ocean, in order to improve the security of surveying the operation, carry out environment observation time under water at the diver, need protect the synchronous input of cage, utilize to protect the cage and carry out diver's isolation protection, the existence of avoiding the macrobiosis under water causes diver's life potential safety hazard threat, the operation of protection cage simultaneously, can put in the control of the degree of depth through it, change and adjust diver's dive degree of depth, avoid the diver to cause the discomfort of its health because of dive degree of depth scheduling problem in the detection process, the security that effectual improvement ocean exploration work goes on.

However, the existing ocean exploration protection cage has the following problems when in use:

1. the use functionality is single, continuous and effective oxygen supply cannot be carried out on underwater diving detection personnel in the detection process, so that the working time of the underwater detection personnel is limited by the oxygen supply, and meanwhile, when the protection cage is rolled and thrown, the oxygen pipeline is easily bent and damaged, and the normal internal gas guiding use of the oxygen pipeline is influenced;

2. the utility model has the advantages of can not carry out the variety to oxygen and use, cause the waste of its air guide easily when using oxygen, simultaneously when carrying out oxygen supply to the diver, can not carry out oxygen conduction quantity and conduction rate's quick adjustment according to diver's self user demand.

Aiming at the problems, innovative design is urgently needed on the basis of the original ocean exploration protection cage.

Disclosure of Invention

The invention aims to provide a rolling and throwing movable ocean detection protection cage capable of supplying oxygen in the whole process, and aims to solve the problems that the existing ocean detection protection cage in the background technology is single in use functionality, can not continuously and effectively supply oxygen to underwater diving detection personnel in the detection process, so that the working time of the underwater detection personnel is limited by the oxygen supply, the bending damage of an oxygen pipeline is easily caused when the protection cage is rolled and thrown, the normal internal air guiding use of the protection cage is influenced, the oxygen can not be used in a diversity way, the waste of air guiding is easily caused when the oxygen is used, and simultaneously, the oxygen guiding quantity and the conduction speed can not be quickly adjusted according to the self use requirements of the divers when the oxygen is supplied to the divers.

In order to achieve the purpose, the invention provides the following technical scheme: a rolling and throwing movable ocean exploration protection cage with whole oxygen supply comprises a metal cage, an air bag and an air suction pipe, wherein a rolling steel cable is connected to the top of the metal cage in a clamping manner, an air guide threaded pipe is installed in the middle of the rolling steel cable in a penetrating manner, a pipe end of the air guide threaded pipe is connected with an air guide cavity, the air guide cavity is fixed on the metal cage, a first threaded hose and a second threaded hose are respectively connected to two sides of the bottom of the air guide cavity in a penetrating manner, a pipe end of the first threaded hose is connected with the air bag, a positioning frame is fixed to the bottom of the air bag, corners of the positioning frame are connected with bottom support legs of the metal cage, a fixing barrel is fixed on the inner wall of the top of the metal cage, a fixing strip is fixedly connected to one side of the outer wall of the fixing barrel, a telescopic shaft is movably installed inside the fixing strip, and a first elastic piece is fixed between the end portions of the telescopic shaft and the fixing strip, and meanwhile, the outer side of the first elastic piece is provided with a coating film, the pipe end of the second threaded hose is connected with one end of a connecting pipe, the other end of the connecting pipe is fixedly provided with an air suction cover, the outer wall of the middle part of the connecting pipe is provided with a latex tape in an embedded mode, and the edge of the bottom of the air suction cover is fixed with an air bag sealing edge.

Preferably, the winding steel cables are distributed in a triangular structure on the outer side of the air guide threaded pipe, supporting frames are fixedly mounted between the winding steel cables, the outer portion and the inner portion of each supporting frame are respectively of a circular structure and an equilateral triangular structure, and the inner walls of the supporting frames and the air guide threaded pipe are mounted in an embedded mode.

Preferably, the air guide cavity is communicated with the first threaded hose, the second threaded hose and the air guide threaded pipe, the air guide spoiler is rotatably arranged in the middle of the air guide cavity, a damping ring is fixed at the rotary connection position of the air guide spoiler and the air guide cavity, and the outer edge of the air guide spoiler is in sealed fit sliding connection with the inner wall of the air guide cavity.

Preferably, set up to vertically fixed connection between fixed strip and the fixed cylinder, and fixed strip and telescopic shaft constitute coaxial distribution's relative extending structure to the bottom fixedly connected with stopper of telescopic shaft, the setting is run through with the bottom of fixed strip to the stopper moreover.

Preferably, the connecting pipe sets up to "L" style of calligraphy structure, and runs through the setting between connecting pipe and the fixed cylinder to the milk sticky tape on the connecting pipe outer wall and the horizontal central axis collineation of telescopic shaft, the lower extreme of connecting pipe and the top center department fixed connection who inhales the cover moreover.

Preferably, the top avris of the air suction cover is hinged with a limiting strip, a reset elastic air bag is fixedly arranged between the limiting strip and the air suction cover, and the reset elastic air bag is of a fan-shaped structure.

Preferably, the limiting strip is arranged to be of a V-shaped structure, the limiting strip is rotatably connected with the air suction cover, and one end of the limiting strip, in the shape of the V, is clamped with the limiting block to be connected.

Preferably, breathing pipe fixed mounting is in the inside center department of breathing in the cover, and breathing pipe and connecting pipe link up the setting to the end fixing of breathing pipe has the gas outlet, and the middle part of breathing pipe is embedded to install sealing sheet, run through on the breathing pipe of sealing sheet below and install the locating pin, and be fixed with the second elastic component between the tip of locating pin and the outer wall of breathing pipe, and the rubber shrouding is installed in the inside pivot of breathing pipe, and movable mounting has the elasticity rubber rope between the tip of rubber shrouding and locating pin moreover, the rubber sheet is installed to the embedded installation on the outer wall of breathing in the cover.

Preferably, be between elasticity rubber cord and locating pin and the rubber shrouding to rotate to be connected the setting, and locating pin and breathing pipe constitute relative extending structure to rubber shrouding and breathing pipe are the revolution mechanic that the pivot is connected, and the sealed setting of laminating is located for the outward flange of the inside of breathing pipe and rubber shrouding moreover.

Preferably, the rubber sheet is arranged in a T-shaped structure with a curved end, the rubber sheet is attached to the outer wall of the air suction pipe, and the air holes are formed in the outer wall of the air suction pipe below the rubber sheet.

Compared with the prior art, the invention has the beneficial effects that: the rolling and throwing of the whole-course oxygen supply can be conveniently carried out by rolling and throwing the movable ocean exploration protection cage, and the whole-course oxygen supply used by the protection cage is carried out at the same time, so that the use functionality of oxygen is improved, the waste of oxygen amount is reduced, and the conduction and the adjustment of the discharge rate are convenient;

1. the air guide threaded pipe in the rolling process is isolated and protected only by the combined protection of the rolling steel cable and the support frame, so that the influence on normal air guide work caused by local compression deformation in the rolling process is avoided, meanwhile, under the friction limiting action of the air guide flow baffle and the damping ring which are rotatably arranged in the air guide cavity, the air guide threaded pipe is conveniently connected with the first threaded hose and the second threaded hose in different through modes, when oxygen can be supplied to diving workers, the oxygen can be poured into the air bag when necessary to improve the buoyancy of the metal cage, so that the metal cage can be conveniently separated from a water source, meanwhile, the oxygen in the air bag can be supplied to the diving workers, and the normal life and attitude characteristics of the detecting workers are maintained;

2. under the use elasticity difference effect of elasticity gasbag and the first elastic component that resets, can be through the rotation of spacing and the block relation of connection between spacing and the stopper, carry out the regulation change of telescopic shaft mounted position, make the telescopic shaft produce the pressure to the latex area and force it to take place deformation, thereby reach the block installation location effect of connecting pipe and suction hood, and inside shutoff during the connecting pipe mounted state, avoid placing the leakage that produces gas when installing, and suction hood internally mounted's breathing pipe and locating pin concertina movement effect on it, make the locating pin when being bitten by artificial jaw from top to bottom, the position removes the change, the upset motion of control rubber shrouding under the effect of elastic rubber rope, make the inside of rubber shrouding control breathing pipe open the size, adjust the volume of opening and the efficiency of switching on of oxygen, convenient operation is swift.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of a supporting frame according to the present invention;

FIG. 3 is a schematic view of the internal structure of the airway cavity of the present invention;

FIG. 4 is a schematic view of a positioning frame mounting structure according to the present invention;

FIG. 5 is a schematic view of the front side of the telescopic shaft of the present invention;

FIG. 6 is a schematic view of the telescopic shaft of the present invention;

FIG. 7 is a schematic view of the internal structure of the suction hood of the present invention;

FIG. 8 is a schematic view of the connection structure of the elastic rubber string according to the present invention.

In the figure: 1. a metal cage; 2. winding a steel cable; 3. an air guide threaded pipe; 4. a support frame; 5. a gas conducting cavity; 6. a first threaded hose; 7. a second threaded hose; 8. an air guide spoiler; 9. a damping ring; 10. an air bag; 11. a positioning frame; 12. a fixed cylinder; 13. a fixing strip; 14. a telescopic shaft; 15. a first elastic member; 16. a limiting block; 17. a connecting pipe; 18. an air intake cover; 19. a latex tape; 20. sealing edges of the air bag; 21. a limiting strip; 22. resetting the elastic air bag; 23. an air intake duct; 24. an air outlet; 25. sealing the sheet; 26. positioning pins; 27. a second elastic member; 28. a rubber seal plate; 29. an elastic rubber rope; 30. a rubber sheet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: a rolling and throwing movable ocean exploration protection cage with whole oxygen supply comprises a metal cage 1, a rolling steel cable 2, an air guide threaded pipe 3, a support frame 4, an air guide cavity 5, a first threaded hose 6, a second threaded hose 7, an air guide spoiler 8, a damping ring 9, an air bag 10, a positioning frame 11, a fixed cylinder 12, a fixed strip 13, a telescopic shaft 14, a first elastic piece 15, a limiting block 16, a connecting pipe 17, an air suction cover 18, a latex tape 19, an air bag sealing edge 20, a limiting block 21, a reset elastic air bag 22, an air suction pipe 23, an air outlet 24, a sealing sheet 25, a positioning pin 26, a second elastic piece 27, a rubber sealing plate 28, an elastic rubber rope 29 and a rubber sheet 30, wherein the top of the metal cage 1 is connected with the rolling steel cable 2 in a clamping manner, the air guide threaded pipe 3 penetrates through the middle of the steel cable rolling 2, the pipe end of the air guide threaded pipe 3 is connected with the air guide cavity 5, and the air guide cavity 5 is fixed on the metal cage 1, a first threaded hose 6 and a second threaded hose 7 are respectively connected with the two sides of the bottom of the air guide cavity 5 in a penetrating way, the pipe end of the first threaded hose 6 is connected with an air bag 10, and the bottom of the air bag 10 is fixed with a positioning frame 11, the corner of the positioning frame 11 is connected with the bottom support leg of the metal cage 1, the inner wall of the top of the metal cage 1 is fixed with a fixed cylinder 12, one side of the outer wall of the fixed cylinder 12 is fixedly connected with a fixed strip 13, and a telescopic shaft 14 is movably installed inside the fixing strip 13, and a first elastic member 15 is fixed between the telescopic shaft 14 and the end of the fixing strip 13, meanwhile, the outer side of the first elastic piece 15 is provided with a glue-coated film, the pipe end of the second threaded hose 7 is connected with one end of a connecting pipe 17, the other end of the connecting pipe 17 is fixedly provided with an air suction cover 18, and the latex tape 19 is embedded on the outer wall of the middle part of the connecting pipe 17, and the air bag sealing edge 20 is fixed at the bottom edge of the air suction cover 18.

Winding cable wire 2 is triangle-shaped structural distribution in the outside of air guide screwed pipe 3, and fixed mounting has support frame 4 between winding cable wire 2, and the outside and the inside of support frame 4 set up respectively to circular and equilateral triangle shape structure, and embedded installation sets up between the inner wall of support frame 4 and the air guide screwed pipe 3, make winding cable wire 2 can effectively protect air guide screwed pipe 3 when the rolling with expand, avoid its bending and local deformation to influence normal use.

Air guide cavity 5 and first screwed hose 6, the inside of second screwed hose 7 and air guide screwed pipe 3 is link up the setting, and the rotation in the middle part of air guide cavity 5 installs air guide spoiler 8, and the rotation junction of air guide spoiler 8 and air guide cavity 5 is fixed with damping ring 9, and the outward flange department of air guide spoiler 8 is sealed laminating sliding connection with the inner wall of air guide cavity 5, convenient rotation control through air guide spoiler 8, in the leading-in first screwed hose 6 of oxygen and the second screwed hose 7 in the control air guide screwed pipe 3, realize the heterogeneous utilization of oxygen.

Set up to vertically fixed connection between fixed strip 13 and the solid fixed cylinder 12, and fixed strip 13 and telescopic shaft 14 constitute the relative extending structure of coaxial distribution, and the bottom fixedly connected with stopper 16 of telescopic shaft 14, and stopper 16 runs through the setting with the bottom of fixed strip 13, connecting pipe 17 sets up to "L" style of calligraphy structure, and run through the setting between connecting pipe 17 and the solid fixed cylinder 12, and the horizontal central axis collineation of milk sticky tape 19 on the connecting pipe 17 outer wall and telescopic shaft 14, and the lower extreme of connecting pipe 17 and the top center department fixed connection of cover 18 of breathing in, make the position of telescopic shaft 14 remove and change, can be to the synchronization of control connecting pipe 17 erection and location, make milk sticky tape 19 oppress the deformation, when making things convenient for connecting pipe 17 stable erection, prevent that it from taking place oxygen leakage.

The articulated spacing 21 of installing of top avris of cover 18 of breathing in, and fixed mounting has the elasticity gasbag 22 that resets between spacing 21 and the cover 18 of breathing in, and the elasticity gasbag 22 that resets sets up to fan-shaped structure, spacing 21 sets up to "V" style of calligraphy structure, and spacing 21 rotates with the cover 18 of breathing in and is connected the setting, and the block is connected between "V" style of calligraphy one end of spacing 21 and the stopper 16 and is set up, make the rotation of spacing 21 can control the installation setting that changes telescopic shaft 14, thereby be convenient for connecting pipe 17's installation and shutoff.

The air suction pipe 23 is fixedly arranged at the inner center of the air suction cover 18, the air suction pipe 23 and the connecting pipe 17 are arranged in a penetrating way, the end part of the air suction pipe 23 is fixedly provided with an air outlet 24, the middle part of the air suction pipe 23 is provided with a sealing sheet 25 in an embedded way, the air suction pipe 23 below the sealing sheet 25 is provided with a positioning pin 26 in a penetrating way, a second elastic part 27 is fixed between the end part of the positioning pin 26 and the outer wall of the air suction pipe 23, a rubber sealing plate 28 is arranged on the inner rotating shaft of the air suction pipe 23, an elastic rubber rope 29 is movably arranged between the rubber sealing plate 28 and the end part of the positioning pin 26, a rubber sheet 30 is arranged on the outer wall of the air suction cover 18 in an embedded way, the elastic rubber rope 29 and the positioning pin 26 and the rubber sealing plate 28 are arranged in a rotating connection way, the positioning pin 26 and the air suction pipe 23 form a relative telescopic structure, and the rubber sealing plate 28 and the air suction pipe 23 are in a rotating structure connected through rotating shafts, and the inside of breathing pipe 23 and the sealed setting of the outer edge of rubber shrouding 28 for the laminating, the artificial interlock and the oppression that pass through locating pin 26 of being convenient for promote, control rubber shrouding 28's upset motion for receive the manual control influence between the volume of conducting on of oxygen and the speed.

The rubber sheet 30 is arranged in a T-shaped structure with a curved end, the rubber sheet 30 is attached to the outer wall of the air suction pipe 23, and the air holes are formed in the outer wall of the air suction pipe 23 below the rubber sheet 30, so that the internal pressure of the air suction cover 18 can be stably controlled, and the backflow of water can be reduced.

The working principle is as follows: when the movable ocean exploration protection cage is rolled and thrown by using the whole-course oxygen supply, firstly, according to the graph shown in fig. 1-2, when the metal cage 1 is thrown, the rolling steel cable 2 and the air guide threaded pipe 3 perform synchronous rolling motion, and the air guide threaded pipe 3 in the rolling process is supported and protected under the supporting action of the supporting frame 4, so that the air guide threaded pipe is prevented from being bent and partially blocked in the rolling process to influence the use;

meanwhile, as shown in fig. 1 and 3-4, when the metal cage 1 is thrown, the throwing depth is high, which causes discomfort to diving workers, and when the winding structure is damaged, the air guide spoiler 8 is manually rotated, as shown in fig. 3-4, the air guide spoiler 8 is limited under the action of the damping ring 9 after rotating, so that oxygen introduced by the air guide threaded pipe 3 is introduced into the air bag 10 through the first threaded hose 6, the air bag 10 is deformed, expanded and increased, and the positioning frame 11 slides at the bottom of the metal cage 1, so that the deformation of the air bag 10 is more stable, the buoyancy of the metal cage 1 is improved, the throwing depth can be effectively floated when the metal cage is used, and simultaneously, under the rotation of the air guide spoiler 8 and the limiting action of the damping ring 9, the oxygen in the air bag 10 and the oxygen in the air guide threaded pipe 3 can be controlled to be introduced into the second threaded hose 7 and the connecting pipe 17, oxygen supply is carried out for the diving workers;

according to the drawings of fig. 1 and 5-8, when the connection pipe 17 and the air suction cover 18 are installed and positioned, the connection pipe 17 is installed in the fixed cylinder 12 in a penetrating manner, because the using elasticity of the reset elastic air bag 22 is greater than the elasticity of the first elastic piece 15, when the limit strip 21 and the air suction cover 18 are turned over, the end part of the limit strip 21 is clamped with the limit block 16, as shown in fig. 5-6, the telescopic shaft 14 is pushed to relatively extend and retract with the fixed strip 13, the end part of the telescopic shaft 14 presses the latex tape 19, so that the latex tape 19 is deformed to clamp and position the connection pipe 17, the installation and positioning of the connection pipe 17 are facilitated, meanwhile, the latex tape 19 can seal the inside of the connection pipe 17 after being deformed, the waste of oxygen caused by the gas leakage when the connection pipe 17 is used is avoided, the limit strip 21 is rotated reversely in the same way, the taking and the normal gas guiding of the inside of the connection pipe 17 are facilitated, as shown in fig. 7-8, when the inhalation mask 18 is used, the inhalation tube 23 and the air outlet 24 inside the inhalation mask 18 are contained in the mouth of the user, and when oxygen supply is required, the upper jaw and the lower jaw compress the sealing sheet 25 and the positioning pin 26, as shown in fig. 8, the positioning pin 26 makes telescopic movement and the second elastic member 27 deforms, so that the positioning pin 26 pulls the rubber sealing plate 28 through the elastic rubber rope 29, the rubber sealing plate 28 and the inhalation tube 23 are turned over, and the air guiding amount and the air guiding rate inside the inhalation tube 23 are directly controlled by the user to be adjusted, and the operation is convenient and efficient.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides a movable ocean detection protection cage is put in rolling of whole oxygen suppliment, includes metal cage (1), air-bag (10) and breathing pipe (23), its characterized in that: the top of the metal cage (1) is connected with a winding steel cable (2) in a clamping manner, the middle of the winding steel cable (2) is provided with an air guide threaded pipe (3) in a penetrating manner, the pipe end of the air guide threaded pipe (3) is connected with an air guide cavity (5), the air guide cavity (5) is fixed on the metal cage (1), two sides of the bottom of the air guide cavity (5) are respectively connected with a first threaded hose (6) and a second threaded hose (7) in a penetrating manner, the pipe end of the first threaded hose (6) is connected with an air bag (10), the bottom of the air bag (10) is fixed with a positioning frame (11), corners of the positioning frame (11) are connected with bottom support legs of the metal cage (1), a fixed cylinder (12) is fixed on the inner wall of the top of the metal cage (1), a fixed strip (13) is fixedly connected to one side of the outer wall of the fixed cylinder (12), and a telescopic shaft (14) is movably arranged inside the fixed strip (13), a first elastic piece (15) is fixed between the telescopic shaft (14) and the end of the fixing strip (13), an adhesive film is arranged on the outer side of the first elastic piece (15), the pipe end of the second threaded hose (7) is connected with one end of a connecting pipe (17), the other end of the connecting pipe (17) is fixedly provided with an air suction cover (18), a latex tape (19) is embedded on the outer wall of the middle part of the connecting pipe (17), an air bag sealing edge (20) is fixed on the edge of the bottom part of the air suction cover (18), an air suction pipe (23) is fixedly arranged at the center of the inner part of the air suction cover (18), the air suction pipe (23) and the connecting pipe (17) are arranged in a penetrating way, an air outlet (24) is fixed on the end of the air suction pipe (23), a sealing sheet (25) is embedded in the middle part of the air suction pipe (23), and a positioning pin (26) is arranged on the air suction pipe (23) below the sealing sheet (25) in a penetrating way, a second elastic piece (27) is fixed between the end part of the positioning pin (26) and the outer wall of the air suction pipe (23), a rubber sealing plate (28) is installed on an inner rotating shaft of the air suction pipe (23), an elastic rubber rope (29) is movably installed between the end part of the rubber sealing plate (28) and the end part of the positioning pin (26), a rubber sheet (30) is installed on the outer wall of the air suction cover (18) in an embedded mode, the elastic rubber rope (29), the positioning pin (26) and the rubber sealing plate (28) are rotatably connected, the positioning pin (26) and the air suction pipe (23) form a relatively telescopic structure, the rubber sealing plate (28) and the air suction pipe (23) are of a rotating structure connected through rotating shafts, the inner part of the air suction pipe (23) and the outer edge of the rubber sealing plate (28) are in a sealing arrangement in an attaching mode, and the rubber sheet (30) is of a T-shaped structure with a curved end part, the rubber sheet (30) is attached to the outer wall of the air suction pipe (23), and air holes are formed in the outer wall of the air suction pipe (23) below the rubber sheet (30).

2. The rolling and throwing movable ocean exploration protection cage with whole oxygen supply according to claim 1, characterized in that: winding cable wire (2) are triangle-shaped structural distribution in the outside of air guide screwed pipe (3), and fixed mounting has support frame (4) between winding cable wire (2) to the outside and the inside of support frame (4) set up respectively to circular and equilateral triangle shape structure, and embedded installation sets up between the inner wall of support frame (4) and air guide screwed pipe (3) moreover.

3. The rolling and throwing movable ocean exploration protection cage with whole oxygen supply according to claim 1, characterized in that: air guide chamber (5) and first screwed hose (6), second screwed hose (7) and the inside of air guide screwed pipe (3) are link up the setting, and the rotation of the middle part of air guide chamber (5) installs air guide spoiler (8), and the rotation junction of air guide spoiler (8) and air guide chamber (5) is fixed with damping ring (9), and the outer edge of air guide spoiler (8) is sealed laminating sliding connection with the inner wall of air guide chamber (5).

4. The rolling and throwing movable ocean exploration protection cage with whole oxygen supply according to claim 1, characterized in that: set up to vertically fixed connection between fixed strip (13) and the fixed cylinder (12), and fixed strip (13) and telescopic shaft (14) constitute the relative extending structure of coaxial distribution to the bottom fixedly connected with stopper (16) of telescopic shaft (14), stopper (16) run through the setting with the bottom of fixed strip (13) moreover.

5. The rolling and throwing movable ocean exploration protection cage with whole oxygen supply according to claim 1, characterized in that: the connecting pipe (17) is arranged to be of an L-shaped structure, the connecting pipe (17) and the fixed cylinder (12) are arranged in a penetrating mode, the latex tape (19) on the outer wall of the connecting pipe (17) is collinear with the transverse central axis of the telescopic shaft (14), and the lower end of the connecting pipe (17) is fixedly connected with the top center of the air suction cover (18).

6. The rolling and throwing movable ocean exploration protection cage with whole oxygen supply according to claim 5, characterized in that: the top avris of breathing in cover (18) is articulated to be installed spacing (21), and fixed mounting has between spacing (21) and the breathing in cover (18) elasticity gasbag (22) that resets to elasticity gasbag (22) that resets set up to fan-shaped structure.

7. The rolling and throwing movable ocean exploration protection cage with whole oxygen supply function according to claim 6, characterized in that: spacing (21) set up to "V" style of calligraphy structure, and spacing (21) and the cover (18) of breathing in rotate to be connected the setting to the block is connected the setting between "V" style of calligraphy one end and the stopper (16) of spacing (21).

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