CN209833964U

CN209833964U - Floating submersible

Info

Publication number: CN209833964U
Application number: CN201822106366.3U
Authority: CN
Inventors: 倪志坚
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-12-15
Filing date: 2018-12-15
Publication date: 2019-12-24
Anticipated expiration: 2028-12-15

Abstract

The utility model discloses a floating submersible, which comprises a shell, a respirator, a pressure control device, an air storage tank, an air inlet pipe and an air supply device positioned in the shell, wherein the piston part of the air supply device is exposed outside the shell; the air inlet pipe extends into the shell from the outside of the shell and is connected with an air inlet of the air supply device, an air outlet of the air supply device is connected with the air storage tank through an air pipe which is connected with the pressure control device in series, and the air storage tank is positioned outside the shell and is connected with the respirator through a breathing hose. The utility model arranges the gas storage tank outside the shell, and arranges the air pump inside the shell, so that the structure of the device is simpler and the device is convenient to carry on the premise of realizing gas supply; the electric quantity display meter is arranged outside the shell, and the rechargeable battery pack is arranged, so that the purpose of recycling the battery pack is achieved while the electric quantity of the battery pack is monitored, and the practicability is high; the flow control switch is arranged, so that the expiratory flow of the respirator can be conveniently controlled, and the respirator can be widely applied to the technical field of diving equipment.

Description

Floating submersible

Technical Field

The utility model relates to the technical field of diving equipment, in particular to a floating diving instrument.

Background

The diving can exercise the whole body muscles of the sporter, can play the purpose of shaping and slimming, and is a water sport project for a plurality of hobbyists. And the existing diving equipment for the diver to wear comprises a backpack type and a floating type, wherein: the backpack compressed gas cylinder diving equipment has large mass, which causes a certain use burden to a user, and the structure of the backpack compressed gas cylinder diving equipment is complex and inconvenient to maintain; the existing diving equipment has larger volume, the gas compressor is on the land, the output power of the equipment is required to be larger, the gas transmission pipe is longer, the pressure is higher, the power supply of the equipment is difficult to solve, and the existing equipment is heavier, so the application range of the existing diving equipment is limited by a series of technical problems.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a float formula submersible that small, be convenient for realize flow control and simple structure.

The utility model provides a technical scheme does: a floating submersible comprises a shell, a respirator, a pressure control device, an air storage tank, an air inlet pipe and an air supply device, wherein the air supply device is positioned in the shell; the air inlet pipe extends into the shell from the outside of the shell and is connected with an air inlet of the air supply device, an air outlet of the air supply device is connected with the air storage tank through an air conveying pipe connected with the pressure control device in series, and the air storage tank is located outside the shell and is connected with the respirator through a breathing hose.

The quality of the breathing air of a diver is ensured by manufacturing a breathing hose by using a food-grade silicone tube, connecting the breathing hose with a respirator to form an independent breathing system and isolating the breathing system from an oil-free air pump and a carbon brush; the air storage tank is arranged outside the shell and selectively sets the volume of the air storage tank to be 4 liters, so that the protection is provided for a diver to rest on the water surface.

Preferably, the pressure control device includes the atmospheric pressure measurement switch that is located the inside of shell and is located inside controller, the fuse of shell, atmospheric pressure measurement switch electrical connection controller and fuse, the air feeder is connected to the controller electricity. The pressure of the gas storage tank can be detected conveniently through the gas measuring switch, and the gas storage tank can be inflated or stopped to be inflated in time, so that the automation degree is high; the fuse plays a certain role in protecting the control circuit, and the running stability of the equipment is improved.

Preferably, the air supply device is an air pump, and a lower piston part of the air pump extends out of the shell and forms a heat exchange system with water outside the shell. Be convenient for realize the heat transfer through piston portion and water contact, utilize water to come to cool off piston portion for the work, prevent overheat phenomenon, improve equipment's stability in use.

Preferably, be equipped with the group battery with air pump electric connection in the shell, the shell outside just is close to the intake pipe position and is equipped with electric quantity display list and battery switch with group battery electric connection. The residual electric quantity of the battery pack can be conveniently displayed through the electric quantity display meter, and the arranged battery switch is convenient for realizing the control of the disconnection or the connection of the circuit where the battery pack is located.

Preferably, the air pump is arranged at the lower position of the shell and forms a tumbler structure floating in water. Is convenient to realize the utility model stably floats on the water surface.

Preferably, a gas flow control switch is arranged on a pipe section of the breathing hose, and the battery pack is of a rechargeable structure. The flow of the gas output from the gas storage tank to the respirator is convenient to realize through the flow control switch, so that a user is in a comfortable breathing state; the arranged rechargeable battery is convenient for realizing the recycling of the battery.

Compared with the prior art, the utility model the advantage lie in:

(1) the air storage tank is arranged outside the shell, the air pump is arranged inside the shell, the structure of the equipment is simpler on the premise of realizing air supply, the volume of the shell is reduced, the whole weight is 5-6 kilograms, and the air storage tank is convenient to carry and floats on the water surface;

(2) the electric quantity display meter is arranged outside the shell, and the rechargeable battery pack is arranged, so that the purpose of recycling the battery pack is achieved while the electric quantity of the battery pack is monitored, the utility model can continuously work for more than 4 hours under normal conditions, and the practicability is strong;

(3) set up flow control switch between gas holder and respirator, the expiratory flow of the control respirator of being convenient for improves the utility model discloses a use the travelling comfort.

Drawings

FIG. 1 is a schematic structural view of a floating vehicle;

FIG. 2 is a schematic diagram of the control system connection circuit of a floating vehicle.

In the figure: 1. the device comprises a shell, 2, a respirator, 3, a pressure control device, 301, an air pressure measuring switch, 302, a controller, 303, a fuse, 4, an air storage tank, 401, a movable joint, 5, an air inlet pipe, 6, an air supply device, 601, a piston part, 7, a breathing hose, 8, the respirator, 9, a battery pack, 10, an electric quantity display meter, 11 and a battery switch.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

With reference to the attached drawings 1-2, the floating submersible comprises a shell 1, a respirator 2, a pressure control device 3, an air storage tank 4, an air inlet pipe 5 and an air supply device 6 positioned in the shell 1, wherein a piston part 601 of the air supply device 6 is exposed out of the shell 1; the air inlet pipe 5 extends into the shell 1 from the outside of the shell 1 and is connected with an air inlet of the air supply device 6, an air outlet of the air supply device 6 is connected with the air storage tank 4 through an air conveying pipe which is connected with the pressure control device 3 in series, and the air storage tank 4 is positioned outside the shell 1 and is connected with the respirator 8 through a breathing hose 7.

When the air compressor is used specifically, the inlet part of the air inlet pipe 5 is exposed on the water surface, when the pressure control device 3 detects that the air pressure in the air storage tank 4 is lower than a set value, the air supply device 6 is started, air is extracted from the outside and is compressed and then sent into the air storage tank 4, and when the air pressure in the air storage tank 4 meets the requirement of the set value, the pressure control device 3 controls the air supply device 6 to stop working; after the user uses the air storage tank 4 for a period of time, the pressure in the air storage tank 4 is reduced, and the pressure control device 3 continues to control the air supply device 6 to work according to the working mode to deliver air to the air storage tank 4 for subsequent use; in this process, since the piston portion 601 of the air supply device 6 is located below the water surface, the piston portion 601 can be cooled by heat exchange between water and the piston portion 601; in order to make the device continuously controllable, when the gas storage tank 4 is charged, a gas flow control component (such as a gas flow control switch) can be selectively arranged on the gas inlet pipe 5 and a connecting pipe section between the gas inlet pipe and the gas supply device 6, so as to realize the controllable operation of the gas inlet pressure; in order to realize flexible connection between the air storage tank 4 and the air pump, a movable joint 401 can be arranged on an air pipe section between the air pressure measuring switch 301 and the air inlet of the air storage tank 4 during specific setting, so that the installation of equipment is facilitated.

The pressure control device 3 comprises an air pressure measuring switch 301 positioned inside the shell 1, and a controller 302 and a fuse 303 positioned inside the shell 1, wherein the air pressure measuring switch 301 is electrically connected with the controller 302 and the fuse 303, and the controller 302 is electrically connected with the air supply device 6.

The function of the air pressure measuring switch 301 is to detect the air pressure in the air storage tank 4, and in the working process, when the air pressure in the air storage tank 4 reaches a set value, the air pressure measuring switch 301 transmits a signal to the controller 302, and the controller 302 acts on the air supply device 6 and stops working, thereby achieving the purpose of automatic control.

The air supply device 6 is an air pump, the lower piston part 601 of which extends out of the housing 1 and constitutes a heat exchange system with the water outside the housing 1.

Since the piston 601 inevitably generates heat due to friction during the process of compressing gas, if the heat cannot be dissipated in time, the equipment will be failed and finally stop working; therefore, the air pump is set in a state that the piston portion 601 is located outside the housing 1 and is in water during operation, the air pump is coupled by a motor (disposed inside the housing 1) during operation, and cooling of the piston portion 601 is achieved by a temperature difference between water and the piston portion 601 and further by heat transfer.

The inside of the shell 1 is provided with a battery pack 9 electrically connected with the air pump, and the outside of the shell 1 and the position close to the air inlet pipe 5 are provided with an electric quantity display meter 10 and a battery switch 11 electrically connected with the battery pack 9.

During specific connection, the electric quantity display meter 10 can be set to be of a common liquid crystal display structure and has a waterproof characteristic, the shell 1 is set to be of a stainless steel waterproof structure, and the electric quantity of the battery pack 9 is monitored by electrically connecting the shell in a loop where the battery pack 9 is located during use; and the battery switch 11 realizes the power supply and the power failure of the battery pack 9 by being connected in series in a loop in which the battery pack 9 is positioned.

The air pump is arranged at the lower part of the shell 1 and forms a tumbler structure in water.

Locate the lower part position of shell 1 with the air pump for the focus of shell 1 is located the lower part position, and when specifically using, makes shell 1 float on the surface of water, and the air inlet of intake pipe 5 is located the surface of water more, realizes drawing gas from the external world and carries the purpose in the gas holder 4.

The section of the breathing hose 7 is provided with a gas flow control switch 12, and the battery pack 9 is in a rechargeable structure.

When the type of the gas flow control switch 12 is selected, a common switch capable of controlling the gas flow may be selected, so that the expiratory flow can be adjusted.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims

1. A floating submersible comprises a shell, a respirator, a pressure control device, an air storage tank and an air inlet pipe, and is characterized by also comprising an air supply device positioned in the shell, wherein a piston part of the air supply device is exposed outside the shell; the air inlet pipe extends into the shell from the outside of the shell and is connected with an air inlet of the air supply device, an air outlet of the air supply device is connected with the air storage tank through an air conveying pipe connected with the pressure control device in series, and the air storage tank is located outside the shell and is connected with the respirator through a breathing hose.

2. A floating submersible as recited in claim 1 wherein the pressure control device comprises a barometric pressure measurement switch located within the housing and a controller and a fuse located within the housing, the barometric pressure measurement switch electrically connecting the controller and the fuse, the controller electrically connecting the gas supply.

3. A floating submersible as recited in claim 2 wherein the air supply is provided as an air pump having a lower piston portion that extends out of the housing and forms a heat exchange system with water outside the housing.

4. A floating submersible as recited in claim 1 wherein the housing contains a battery pack that is electrically connected to the air pump, and a battery gauge and battery switch are located outside the housing and adjacent to the air intake conduit and electrically connected to the battery pack.

5. A floating submersible as recited in claim 4 wherein the air pump is located at a lower position on the housing and forms a tumbler structure that floats in the water.

6. A floating submersible as claimed in claim 4 wherein the breathing hose section is provided with a gas flow control switch and the battery pack is provided in a rechargeable configuration.