CN111776171A - Anti-water-choking diving breathing tube capable of stably floating - Google Patents

Abstract

The invention discloses an anti-choking diving breathing tube capable of stably floating, relating to the technical field of diving appliances and comprising a floating ball, wherein a tube perforation is arranged in the middle position of the top of the floating ball, a breathing tube penetrates through the tube perforation, the top of the breathing tube is in a sealing design, the bottom of the breathing tube is communicated with a mouthpiece, and an air inlet tube is uniformly arranged at the top of the floating ball. This can stabilize showy anti-choke dive respiratory tube, can dive deeper distance, possess the lifesaving ability, diver's accident helps it to save physical power and saves oneself when drowning, water gets into dive respiratory tube inside can not cause the diver to choke when stormy waves appears, the security is high, can guarantee simultaneously that dive respiratory tube can not reduce buoyancy because weight increases after intaking, even still possess stable buoyancy help diver save physical power and save oneself under the big stormy waves condition, make dive respiratory tube safe and reliable more.

Description

Anti-water-choking diving breathing tube capable of stably floating

Technical Field

The invention relates to the technical field of diving instruments, in particular to an anti-choking diving breathing tube capable of stably floating.

Background

Typical divers' standard equipment includes a mask and a breathing tube, wherein the mask communicates with the breathing tube and external air is introduced into the mask through the breathing tube for inhalation by the diver. But present dive breathing pipe length is too short, can't dive to deeper distance, does not possess the lifesaving ability, the diver can't help it save physical power and save oneself when unexpected drowned, water easily enters into dive breathing pipe when stormy waves appears and causes the diver to choke water, the security is relatively poor, can't guarantee simultaneously that dive breathing pipe can not reduce buoyancy because weight increases after intaking, guarantee even still possess stable buoyancy help diver save physical power and save oneself under the big stormy waves condition.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the anti-choking diving breathing tube capable of stably floating, which can submerge to a deeper distance and has lifesaving capability, a diver is helped to save physical power and save self rescue when drowning accidentally, water enters the diving breathing tube without causing the diver to choke when stormy waves occur, the safety is high, meanwhile, the diving breathing tube can be ensured not to reduce buoyancy due to weight increase after water enters, the diving breathing tube still has stable buoyancy to help the diver save physical power and save self rescue even under the condition of heavy stormy waves, and the diving breathing tube is safer and more reliable.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a can stabilize showy anti-choke dive respiratory siphon, includes floats the ball, float the top intermediate position of ball and seted up the pipe perforation, the inside of pipe perforation is run through has the respiratory siphon, the top of respiratory siphon is for sealing the design, the bottom intercommunication of respiratory siphon has the mouthpiece, and the diver pulls the respiratory siphon when cramping or drowning, embraces the floating ball pulling back around the body and holds the floating ball, floats on the surface of water with the help of the buoyancy of floating the ball, has increased the function of dive respiratory siphon, makes dive respiratory siphon possess life-saving capability, can help its save physical power to save oneself when the diver accident is drowned, the intake pipe is evenly installed at the top of floating the ball, one side of intake pipe is through breather pipe and respiratory siphon intercommunication, sliding connection has the water receiving box between the inner wall both sides of intake pipe, one side that the breather pipe was kept away from to the water receiving, the floating ball is placed on the water surface, a diver starts diving after wearing the mouthpiece, water flows into the water receiving box along the pipe wall when entering the air inlet pipe, air still passes through the breathing pipe from the air inlet pipe and enters the breathing pipe, the water entering the diving breathing pipe is isolated and stored, and is not inhaled by the diver to cause water choking in the mouthpiece, the safety performance is high, the driving device is installed at the bottom of the inner wall of the air inlet pipe, the triggering device is installed at one side of the air inlet pipe far away from the breathing pipe, and the safety valve is installed at one end of the inner wall bottom of the air inlet pipe far away from the.

Preferably, drive arrangement includes the magnet piece, the top fixedly connected with anticollision spring of magnet piece, the bottom fixedly connected with strong magnet of water receiving box, the magnet piece is the same with the adjacent one side magnetic pole of strong magnet.

Preferably, the trigger device comprises an isolation pipe, the isolation pipe is positioned between the water receiving box and the drive device and is communicated with the air inlet pipe, one side, far away from the air inlet pipe, of the inner wall of the isolation pipe is fixedly connected with an isolation plate through an isolation spring, the top of the isolation plate is an arc surface, when more water enters the air inlet pipe, the water in the water receiving box increases, the force for extruding the isolation plate increases, the water receiving box extrudes the isolation plate into the isolation pipe, the magnet block pushes the strong magnet and the water receiving box to ascend, the water receiving box blocks the air pipe when ascending above the inlet of the air pipe, the water is prevented from entering the breathing pipe and being sucked by a diver, the water receiving box is pushed to continuously ascend along the inner wall of the air inlet pipe, the water receiving box extrudes the inclined block when sliding to the drainage chamber, the inclined block is extruded to enter the drainage chamber, the water receiving box also enters the inside of the drainage chamber, even if the water receiving box part enters the drainage chamber, the air inlet pipe can be blocked, so that water entering the air inlet pipe can be stopped at the front end of the drainage chamber, even if the diving breathing pipe continuously enters water for a long time, the diving breathing pipe can not enter the breathing pipe and can not be inhaled by a diver, the device has higher stability and is safer, the diver can be prevented from being choked under any condition, water in the water receiving box is discharged into the drainage chamber from the water leakage hole and is discharged to the outside of the diving breathing pipe from the drainage hole, when the water in the water receiving box is completely discharged, the weight of the water receiving box becomes light, the safety spring pushes the inclined block and the water receiving box upwards, after the water receiving box rises to the outside of the drainage chamber, the water can return to the initial position to ventilate the breathing pipe only when the water in the water receiving box is completely discharged, when external wind waves are large and the water continuously enters the air inlet pipe, the water can not enter the breathing pipe by the water, can guarantee that can not get into more water in the respiratory tube of diving, guarantee to possess stable buoyancy all the time, can not reduce buoyancy because weight gain after intaking, even still possess stable buoyancy help diver save physical power and save oneself under the big stormy waves condition, make the respiratory tube of diving safe and reliable more.

Preferably, the safety valve comprises a drainage chamber, the drainage chamber is installed at the bottom of the air inlet pipe and is communicated with the air inlet pipe, an inclined block is fixedly connected to the bottom of the inner wall of the drainage chamber through a safety spring, drainage holes are uniformly formed in the bottom of the drainage chamber, and the inner diameter of the position, close to the drainage chamber, of one end of the air inlet pipe is reduced.

Preferably, the air inlet pipe comprises a vertical pipe, the bottom of the vertical pipe is fixedly connected with the floating ball, the top of the vertical pipe is communicated with an arc-shaped inclined pipe, and the safety valve is mounted at the bottom of the inner wall of the arc-shaped inclined pipe.

Preferably, the bottom fixedly connected with iron sheet of division board, the inner wall bottom sliding connection of iron sheet and isolation tube, the dashpot has been seted up at the top of division board, the inner wall bottom fixedly connected with buffer spring of dashpot, buffer spring and anticollision spring are installed respectively to the top of division board and magnet piece, and help buffering slows down when the water receiving box descends, avoids water receiving box direct impact division board and magnet piece to cause the damage, has increased the life of device, buffer spring's top extends to the outside of dashpot.

Preferably, the bottom of the floating ball is uniformly provided with a vertical rod, and the breathing tube is wound on the outer side of the vertical rod.

Preferably, the outside gluing of montant is fixed with the magic and pastes circle hair, the thorn hair is pasted to the magic evenly installed in the outside of respiratory tube, and the respiratory tube passes through the magic and pastes the winding and fix in the outside of montant, and pulling respiratory tube during dive comes off respiratory tube pulling from the montant, increases respiratory tube's length, extension diver's dive degree of depth.

Preferably, the internally mounted of respiratory tube has the gasbag, one side of gasbag runs through the respiratory tube and extends to the outside of respiratory tube, the inside packing of gasbag has the air, increases buoyancy through gasbag and the double means of floating the ball on the respiratory tube, guarantees to help the diver float laborsavingly, has improved diver's safety guarantee.

The invention provides an anti-choking diving breathing tube capable of stably floating. The method has the following beneficial effects:

(1) this can stabilize showy anti-choke water dive respiratory tube, outside stormy waves is great to be kept in the intake pipe when intaking water by the water receiving box and is blocked unable entering dive respiratory tube inside, can guarantee to dive can not get into more water in the respiratory tube, guarantee to possess stable buoyancy throughout, can not reduce buoyancy because weight increases after intaking, even still possess stable buoyancy help diver save physical power and save oneself under the big stormy waves condition, make dive respiratory tube safe and reliable more.

(2) The anti-choking diving breathing tube capable of stably floating is characterized in that water entering the diving breathing tube is isolated and stored, and cannot enter a mouthpiece to be inhaled by a diver to cause choking, so that the safety performance is high.

(3) This can stabilize showy anti-water that chocks dive respiratory tube, even dive respiratory tube lasts for a long time and also can't get into in the respiratory tube into and is inhaled by the diver, the stability of device is higher, and is safer, guarantees that the diver can both avoid under any circumstance chocking water.

(4) This can stabilize showy anti-choke dive respiratory tube, increased the function of dive respiratory tube, make dive respiratory tube possess the lifesaving ability, can help it to save physical power when the diver is unexpected drowned and save oneself.

(5) This can stabilize showy anti-choke water dive respiratory tube, avoid the direct striking division board of water receiving box and magnet piece to cause the damage, increased the life of device.

(6) This can stabilize showy anti-choke dive respiratory tube, increase respiratory tube's length, extension diver's dive degree of depth.

(7) This can stabilize showy anti-choke dive respiratory tube, through gasbag and the dual means of floating ball on the respiratory tube increase buoyancy, guarantee to help the diver float laborsavingly, improved diver's safety guarantee.

Drawings

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

FIG. 2 is a schematic view of the external structure of the respiratory tube of the present invention;

FIG. 3 is a cross-sectional view of the interior of a breathing tube of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the bottom structure of the floating ball of the present invention;

fig. 6 is a schematic view of the structure of the breathing tube of the present invention.

In the figure: 1-floating ball, 2-pipe perforation, 3-breathing pipe, 4-mouthpiece, 5-air inlet pipe, 501-vertical pipe, 502-arc inclined pipe, 6-vent pipe, 7-water receiving box, 8-water leakage hole, 9-driving device, 901-magnet block, 902-anticollision spring, 903-strong magnet, 10-trigger device, 101-isolation pipe, 102-isolation spring, 103-isolation plate, 11-safety valve, 111-drainage chamber, 112-safety spring, 113-inclined block, 114-drainage hole, 12-iron sheet, 13-buffer groove, 14-buffer spring, 15-vertical rod, 16-magic tape round hair, 17-magic tape thorn hair, 18-air bag.

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.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Example one

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a can stabilize showy anti-choke dive respiratory tube, includes floats ball 1, floats the top intermediate position of ball 1 and has seted up the pipe and perforate 2, and the inside of pipe perforation 2 is run through there is respiratory tube 3, and respiratory tube 3's top is for sealing the design, and respiratory tube 3's bottom intercommunication has mouthpiece 4.

During the use, the diver pulls the breathing tube 3 when cramping or drowning, embraces the floating ball 1 behind the pulling body with floating ball 1, floats on the surface of water with the help of floating ball's buoyancy, can help it to save physical power and save oneself when the diver accident is drowned.

Example two

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a can stabilize showy anti-choke dive breathing pipe, including floating ball 1, it perforates 2 to float ball 1's top intermediate position seted up the pipe, the inside of boring 2 of pipe runs through has breathing pipe 3, the top of breathing pipe 3 is for sealing the design, the bottom intercommunication of breathing pipe 3 has mouthpiece 4, it evenly installs intake pipe 5 to float ball 1's top, breather pipe 6 and 3 intercommunications of breathing pipe are passed through to one side of intake pipe 5, sliding connection has water receiving box 7 between intake pipe 5's the inner wall both sides, water leakage hole 8 has evenly been seted up to one side that breather pipe 6 was kept away from to water receiving box 7, trigger device 10 is installed to one side that breather pipe 6 was kept away from.

Trigger device 10 includes insulating tube 101, and insulating tube 101 is located the position between water collector 7 and the drive arrangement 9 to insulating tube 101 and intake pipe 5 intercommunication, the one side that intake pipe 5 was kept away from to the inner wall of insulating tube 101 is through isolation spring 102 fixedly connected with division board 103, and the top of division board 103 is the cambered surface.

When the floating ball type diving breathing tube is used, the floating ball 1 is placed on the water surface, a diver starts diving after wearing the mouthpiece 4, water flows into the water receiving box 7 along the wall of the tube when entering the air inlet tube 5, air still enters the breathing tube 3 from the air inlet tube 5 through the vent tube 6, and the water entering the diving breathing tube is isolated and stored and cannot enter the mouthpiece 4 to be inhaled by the diver to cause water choke.

EXAMPLE III

Referring to fig. 1-3, the present invention provides a technical solution: on the basis of the second embodiment, the driving device 9 is installed at the bottom of the inner wall of the air inlet pipe 5, the driving device 9 comprises a magnet block 901, an anti-collision spring 902 is fixedly connected to the top of the magnet block 901, a strong magnet 903 is fixedly connected to the bottom of the water receiving box 7, and the magnetic poles of the adjacent sides of the magnet block 901 and the strong magnet 903 are the same.

During the use, the water that gets into in the intake pipe 5 water in the water receiving box 7 when more increases, and the dynamics grow of extrusion division board 103, inside water receiving box 7 extrudes division board 103 into the isolation pipe 101, magnet piece 901 promoted strong magnet 903 and water receiving box 7 and rises, and water receiving box 7 blocks up breather pipe 6 when rising to the entry top of breather pipe 6, avoids water to get into the breathing pipe and is inhaled by the diver.

Example four

Referring to fig. 1-3, the present invention provides a technical solution: on the basis of the third embodiment, safety valve 11 is installed to the one end that drive arrangement 9 was kept away from to the inner wall bottom of intake pipe 5, and safety valve 11 includes drainage chamber 111, and drainage chamber 111 installs in the bottom of intake pipe 5 and communicates with intake pipe 5, and the inner wall bottom of drainage chamber 111 passes through safety spring 112 fixedly connected with sloping block 113, and drainage hole 114 has evenly been seted up to the bottom of drainage chamber 111, and the position internal diameter that the one end of intake pipe 5 is close to drainage chamber 111 diminishes.

Intake pipe 5 includes standpipe 501, standpipe 501's bottom and float ball 1 fixed connection, and standpipe 501's top intercommunication has arc inclined tube 502, and relief valve 11 installs in the inner wall bottom of arc inclined tube 502.

The bottom fixedly connected with iron sheet 12 of division board 103, iron sheet 12 and the inner wall bottom sliding connection of isolation pipe 11, buffer slot 13 has been seted up at the top of division board 103, and the inner wall bottom fixedly connected with buffer spring 14 of buffer slot 13, the top of buffer spring 14 extend to the outside of buffer slot 13.

When the water receiving box is used, when more water enters the air inlet pipe 5, the water in the water receiving box 7 is increased, the force for extruding the isolation plate 103 is increased, the water receiving box 7 extrudes the isolation plate 103 into the isolation pipe 101, the magnet block 901 pushes the strong magnet 903 and the water receiving box 7 to ascend, the water receiving box 7 blocks the air pipe 6 when ascending above the inlet of the air pipe 6, the water receiving box 7 is pushed to continue to ascend along the inner wall of the air inlet pipe 5, the inclined block 113 is extruded when the water receiving box 7 slides to the drainage chamber 111, the inclined block 113 is extruded into the drainage chamber 111, the water receiving box 7 also enters the drainage chamber 111, the inner diameter of the position of the air inlet pipe 5 close to the drainage chamber 111 is reduced, the air inlet pipe 5 can be blocked even if the water receiving box 7 partially enters the drainage chamber 111, the water entering the air inlet pipe 5 is stopped at the front end of the drainage chamber 111, and the diving breathing pipe cannot enter the breathing pipe to, the water in the water receiving box 7 is discharged into the drainage chamber 111 from the water leakage hole 8 and is discharged to the outside of the diving breathing pipe from the water discharge hole 114, when the water in the water receiving box 7 is completely discharged, the weight of the water receiving box 7 becomes light, the safety spring 112 pushes the inclined block 113 and the water receiving box 7 upwards, and the water receiving box 7 rises to the outside of the drainage chamber 111 and slides to the initial position along the air inlet pipe 5 due to the self weight.

EXAMPLE five

Referring to fig. 1-6, the present invention provides a technical solution: on the basis of the fourth embodiment, the vertical rods 15 are uniformly arranged at the bottom of the floating ball 1, and the breathing tube 3 is wound on the outer sides of the vertical rods 15.

The outside of montant 15 is glued and is fixed with magic subsides circle hair 16, and the outside of respiratory tube 3 evenly installs magic subsides thorn hair 17.

The breathing tube 3 is internally mounted with an air bag 18, one side of the air bag 18 penetrates the breathing tube 3 and extends to the outside of the breathing tube 3, and the inside of the air bag 18 is filled with air.

During the use, respiratory tube 3 pastes the winding through the magic and fixes in the outside of montant, and pulling respiratory tube 3 during dive pulls respiratory tube 3 from montant 15 and drops.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. The utility model provides a can stabilize showy anti-choking water dive respiratory tube, includes floats ball (1), its characterized in that: a tube perforation (2) is arranged in the middle of the top of the floating ball (1), a breathing tube (3) penetrates through the tube perforation (2), the top of the breathing tube (3) is designed to be sealed, the bottom of the breathing tube (3) is communicated with a mouthpiece (4), the top of the floating ball (1) is uniformly provided with an air inlet pipe (5), one side of the air inlet pipe (5) is communicated with the breathing pipe (3) through a breather pipe (6), a water receiving box (7) is connected between the two sides of the inner wall of the air inlet pipe (5) in a sliding way, one side of the water receiving box (7) far away from the vent pipe (6) is uniformly provided with water leakage holes (8), the bottom of the inner wall of the air inlet pipe (5) is provided with a driving device (9), one side of the air inlet pipe (5) far away from the vent pipe (6) is provided with a trigger device (10), and a safety valve (11) is installed at one end of the bottom of the inner wall of the air inlet pipe (5) far away from the driving device (9).

2. The anti-choke submersible breathing tube as claimed in claim 1, wherein: the driving device (9) comprises a magnet block (901), the top of the magnet block (901) is fixedly connected with an anti-collision spring (902), the bottom of the water receiving box (7) is fixedly connected with a strong magnet (903), and the adjacent magnetic poles of the magnet block (901) and the strong magnet (903) are the same.

3. The anti-choke submersible breathing tube as claimed in claim 1, wherein: trigger device (10) are including isolation pipe (101), isolation pipe (101) are located the position between water receiving box (7) and drive arrangement (9), and isolation pipe (101) and intake pipe (5) intercommunication, isolation spring (102) fixedly connected with division board (103) are passed through to one side that intake pipe (5) were kept away from to the inner wall of isolation pipe (101), the top of division board (103) is the cambered surface.

4. The anti-choke submersible breathing tube as claimed in claim 1, wherein: the safety valve (11) comprises a drainage chamber (111), the drainage chamber (111) is installed at the bottom of the air inlet pipe (5) and communicated with the air inlet pipe (5), an inclined block (113) is fixedly connected to the bottom of the inner wall of the drainage chamber (111) through a safety spring (112), drainage holes (114) are uniformly formed in the bottom of the drainage chamber (111), and the inner diameter of the position, close to the drainage chamber (111), of one end of the air inlet pipe (5) is reduced.

5. The anti-choke submersible breathing tube as claimed in claim 1, wherein: the air inlet pipe (5) comprises a vertical pipe (501), the bottom of the vertical pipe (501) is fixedly connected with the floating ball (1), the top of the vertical pipe (501) is communicated with an arc-shaped inclined pipe (502), and the safety valve (11) is installed at the bottom of the inner wall of the arc-shaped inclined pipe (502).

6. The anti-choke submersible breathing tube as claimed in claim 2, wherein: the bottom fixedly connected with iron sheet (12) of division board (103), the inner wall bottom sliding connection of iron sheet (12) and isolation tube (11), dashpot (13) have been seted up at the top of division board (103), the inner wall bottom fixedly connected with buffer spring (14) of dashpot (13), the top of buffer spring (14) extends to the outside of dashpot (13).

7. The anti-choke submersible breathing tube as claimed in claim 1, wherein: the bottom of the floating ball (1) is uniformly provided with a vertical rod (15), and the breathing tube (3) is wound on the outer side of the vertical rod (15).

8. The anti-choke submersible breathing tube as claimed in claim 7, wherein: the outside gluing of montant (15) is fixed with magic and pastes circle hair (16), magic subsides thorn hair (17) are evenly installed in the outside of respiratory tube (3).

9. The anti-choke submersible breathing tube as claimed in claim 1, wherein: an air bag (18) is installed inside the breathing tube (3), one side of the air bag (18) penetrates through the breathing tube (3) and extends to the outside of the breathing tube (3), and the inside of the air bag (18) is filled with air.

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