KR200271287Y1 - Underwater Propulsion Device - Google Patents

Abstract

The present invention relates to an underwater propulsion apparatus, having a drive shaft 31 to one side, and fixed to the upper portion of the oxygen tank 10 through the fixing device 20 and the drive shaft of the motor 30 A screw 32 installed by being axially coupled to the 31 and fastening belts 42 are provided at both sides of the body to be worn by a diver, and a battery 44 which transmits power to the motor 20 at the bottom thereof. A power supply unit 40 to which the battery pocket 41 is accommodated, a control unit 50 for controlling power supply and driving speed to the motor 30 through a connector 51, and the battery pocket 41. It is installed on the inside or one side of the air pocket 60 to expand by the oxygen supplied from the oxygen tank 10, and through the contact terminal 73 formed on both ends from the oxygen tank 10 to the air pocket 60. It consists of a supply pipe 70 for supplying oxygen.

Therefore, the propulsion force in the water can be obtained through the motor 30 and the screw 32 provided on the upper portion of the oxygen tank 10, so that underwater exploration in a wide area is possible.

And, by separating the motor 30 and the power supply unit 40, it is possible to achieve a lighter weight of the product, there is no need for a separate buoyancy control belt for buoyancy control.

In addition, by installing the air pocket 60 and the auxiliary pocket 45 that can freely adjust the buoyancy in the power supply portion 40 or one side, it is possible to freely adjust the buoyancy in the water.

Therefore, it is a very useful design, such as being able to carry out leisure activities and underwater exploration, regardless of the weight of the equipment necessary for diving, the conditions of the skin scuba diving site according to the season, the dive time, and the like.

Description

Underwater Propulsion Device

The present invention relates to an underwater propulsion apparatus that can freely adjust the position movement and buoyancy control to a large area, and more specifically, to install a buoyancy generating means that can freely adjust the buoyancy in the power supply unit for supplying power to the underwater propulsion apparatus It is designed to facilitate leisure activities and underwater exploration.

In general, an underwater propulsion device is a device used to make a diver attached to an oxygen tank, a scuba (SCUBA) consisting of an oxygen mask, a buoyancy regulator, and a provided article to be maneuverable in the water. The balance between weight and buoyancy is fully considered.

That is, the underwater propulsion device is used when a diver attached to a scuba-related equipment and the like moves to a wide area, and is composed of a motor driven by a power supplied from a power supply unit and a screw coupled to the motor. The driving force is obtained through the rotation of the screw by the drive of this motor.

In addition, as a power supply unit for transmitting power to the motor, an engine oil or a battery is mainly used. The power supply unit and the underwater propulsion unit are integrally formed.

On the other hand, in order for the diver to dive according to the diving conditions such as the weight of the diving equipment, the rising or falling, the depth of the water, etc., the diver must wear a separate buoyancy control belt with the lead inside the waist.

This is to overcome the buoyancy occurring in the water, and generally attaches the underwater propulsion device to the back while wearing the buoyancy adjustment belt on the waist.

Therefore, through the underwater propulsion device and the buoyancy control belt configured as described above, the diver could easily perform underwater activities to leisure activities and large areas.

Conventional underwater propulsion device configured as described above, but the mobility in accordance with the activity in the water, but to use it, the diver had to hold the underwater propulsion with both hands.

Therefore, the diver could not use both hands while diving or working, and thus could not grasp or move the goods in the water at all. It became a factor.

In addition, if the underwater propulsion device and the power supply unit are made in one piece, it may have a weight of about 14 kg, which may cause difficulty in carrying, and may cause loss of the underwater propulsion device due to user's carelessness or an accident may occur. There was this.

In addition, in order to adjust the buoyancy in the water after wearing a separate buoyancy adjustment belt to store the lead, etc., there is a problem that can occur due to the diversification of the goods, the consumption of the prepared lead Later, there was a problem that there is no separate alternative.

Therefore, the present invention was installed in the upper portion of the oxygen propulsion apparatus to solve the above problems, separate the power source for supplying power to the underwater propulsion apparatus.

In addition, the purpose of the buoyancy generating means for generating a constant buoyancy by receiving oxygen from the oxygen tank inside or on one side of the power supply unit so that the diver can move freely in the water regardless of the diving conditions. .

An object of the present invention is to provide an underwater propulsion device that can be easily moved to a large area through free buoyancy control in water.

Another object of the present invention is to provide an underwater propulsion apparatus capable of performing leisure activities and underwater exploration irrespective of the weight of the scuba or underwater propulsion device, the condition of the skin scuba diving site according to the season, the dive time and the like.

1 is a front view showing the overall configuration of the underwater propulsion device of the present invention.

2 is a bottom view illustrating a configuration of a power supply unit.

Figure 3 is a front view showing the configuration of the air pocket provided inside the power supply.

Figure 4 is a front view showing the configuration of an air pocket provided on one side of the power supply.

5 is a partially cutaway sectional view showing an installation state of the air pocket and the supply pipe.

Figure 6 is a bottom view showing the configuration of the auxiliary pocket provided on both sides of the battery pocket.

7 is a bottom view illustrating an embodiment of a power supply unit.

Explanation of symbols on the main parts of the drawings

10-oxygen tank 20-fixing means

30-motor 31-drive shaft

32-screw 40-power supply

41-Battery pocket 42-Fastening belt

43-Fixture 44-Battery

50-Control 51-Connector

60-Air pocket 70-Supply piping

72-Check Valve 73-Contact Terminal

The present invention for achieving the above object, and has a drive shaft to one side, and a motor fixed to the upper portion of the oxygen tank through the fixing means;

A screw axially coupled to the drive shaft of the motor;

Fastening belts are provided at both sides of the body so as to be worn by a diver, and at the bottom thereof, a power supply unit having a battery pocket accommodating a battery for transmitting power to the motor;

A control unit for controlling power supply and driving speed to the motor through a connector;

An air pocket installed inside or on one side of the battery pocket and expanded by oxygen supplied from an oxygen tank;

It consists of a supply pipe for supplying oxygen to the air pocket from the oxygen tank through contact terminals formed at both ends.

Therefore, the diver who performs leisure activities and underwater exploration can adjust the balance between underwater weight and buoyancy regardless of the condition of the scuba diving site, diving time according to the season, and can freely perform the activity.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 shows the overall configuration of the underwater propulsion device of the present invention, showing a configuration of the propulsion force generator installed on the upper portion of the oxygen tank and a power supply unit for supplying power to the propulsion force generator through the fixing device.

2 is a bottom view showing the configuration of the power supply unit, the fastening belt is provided on both sides, the bottom surface shows the overall configuration of the power supply unit is attached to the battery pocket.

3 is a front view showing the configuration of the air pocket provided inside the power supply unit, showing the structure of the air pocket provided inside the battery pocket and the configuration of the supply pipe for supplying oxygen to the air pocket.

4 is a front view showing the configuration of the air pocket provided on one side of the power supply unit, showing the configuration of the air pocket provided on one side of the battery pocket.

5 is a partially cutaway sectional view showing an installation state of the air pocket and the supply pipe, showing the configuration of the supply pipe for supplying oxygen to the air pocket.

Figure 6 shows the configuration of the auxiliary pockets provided on both sides of the battery pocket in a bottom view, showing the configuration of the auxiliary pocket in which lead or the like is accommodated in order to freely adjust the buoyancy.

FIG. 7 illustrates an embodiment of a power supply unit in a bottom view, and shows an embodiment of a power supply unit including a plurality of battery pockets to accommodate a plurality of batteries.

That is, as shown in Figure 1, the present invention is a configuration for allowing the diver to perform leisure activities and underwater exploration freely to adjust the buoyancy according to the driving force and depth in the water, the oxygen tank 10 of It is composed of a propulsion force generator 3 installed on the upper portion and a power supply unit 40 for supplying power to the propulsion force generator 3 and an air pocket 60 installed in the power supply unit 40.

The propulsion force generator 3 installed on the upper portion of the oxygen tank 10 is composed of a motor 30 having a drive shaft 31 to one side, and a screw 32 axially coupled to the drive shaft 31, wherein the motor ( 30 is fixed to the upper portion of the oxygen tank 10 through the fixing means (20).

Here, the fixing means 20 for fixing the motor 30 to the oxygen tank 10 is composed of elements such as the fixing member 21 and the fixing belt 22, the diver descends, lifts, types, work or any object If you move it, you can minimize the resistance to water at any water pressure, and it can minimize the role of direction keys in water and the vortex phenomenon and air bubbles in the low and high speed types.

In addition, a screw protective cover 33 is installed outside the screw 32 axially coupled to the motor 30 to prevent the screw 32 from being damaged by seaweed or vortex during diving. 33 is also fastened to the oxygen tank 10 through the fixing means (20)

Therefore, since the thrust generator 3 is fixedly installed on the upper portion of the oxygen cylinder 10 through the fixing means 20, the diver can use both hands freely in the water, and through this, the object can be freely moved. Will be.

In addition, since the propulsion force generator 3 is installed on the upper portion of the oxygen tank 10, it is possible to pass through the seabed low without scattering the sand or chimney under the sea.

On the other hand, both sides of the body of the power supply unit 40 for supplying power to the motor 30 is worn on the waist of the diver, provided with a fastening belt 42 that can easily change the position of the center of gravity according to the position of the diver, The bottom surface is attached to the battery pocket 41, the battery 44 is accommodated therein.

At this time, both ends of the fastening belt 42 is provided with a fastener 43 made of a male, male to facilitate fastening, attachment, and detachment.

In addition, the battery pocket 41 is preferably made of a durable material in consideration of seasons and conditions of the place, dive time, etc., the front of the coupling button or velcro tape to control the battery 44 therein. Mounting means 47 is provided.

In addition, a control unit 50 is installed between the power supply unit 40 and the propulsion force generator 3 to control the driving speed of the motor 30 in step with the supply of power through the connector 51.

The connector 51 is connected to the motor 30, one end is connected to the motor 30, the other end is connected to the power supply 40, the battery connector 51a and one side end to supply power to the motor 30 from the power supply 40 Is connected to the motor 30, the other end is composed of a control connector 51b for controlling the drive speed of the motor 30 through being connected to the control unit 50.

At this time, the battery connector 51a and the control connector 51b are preferably made for waterproofing so that electric shock does not occur in water.

Therefore, the diver through the thrust generator 3 and the power supply 40 configured as described above can freely adjust its speed in the water, it is possible to easily replace the spare battery 44 in the water.

On the other hand, the diver having such a thrust generator (3) to generate a certain buoyancy in order to descend or go up to a certain depth in the water.

Here, the buoyancy is a force in a direction opposite to the gravity received by the stationary object in the fluid under the action of gravity, it is possible to adjust the buoyancy through the battery 44 accommodated in the battery pocket 41. However, free buoyancy control is not achieved.

Therefore, the present invention was to install a separate buoyancy generating means in the power supply unit 40 to be able to freely adjust the buoyancy.

The buoyancy generating means for supplying oxygen to the air pocket 60 from the oxygen tank 10 through the air pocket 60 and the contact terminals 73 provided at both ends to expand by the oxygen supplied from the oxygen tank 10 It consists of a supply pipe (70).

As shown in FIGS. 2 to 3, the air pocket 60 is housed together with the battery 44, that is, together with the battery 44, or as shown in FIGS. 4 to 5. The other side of the pocket 41 may be installed separately.

In addition, when the oxygen is supplied from the oxygen tank 10 through the supply pipe 70, the air pocket 60 is provided with a check valve 72 to prevent the oxygen from flowing back to the oxygen tank (10) do.

That is, when the diver needs to adjust the buoyancy in the process of performing leisure activities in the water through the thrust generator (3), one side contact terminal 73 of the supply pipe 70 is in contact with the other side in the state connected to the check valve By connecting the terminal 73 to the oxygen tank 10, it is possible to expand the air pocket 60 to adjust the buoyancy.

At this time, if a separate check valve is installed between the contact terminal 73 and the oxygen tank 10 of the supply pipe 70, in order to supply oxygen to the air pocket 60, the contact terminal 73 has to be inserted one by one. Discomfort can be reduced.

Therefore, the diver wearing such equipment can simultaneously obtain the driving force and the submersion power in the water, and can perform free leisure activities and underwater exploration.

On the other hand, as shown in Figure 6, in addition to the air pocket 60 is expanded by the supply of oxygen can be used to attach a separate buoyancy control auxiliary pocket 45 on both sides of the battery pocket 41, the auxiliary The pocket 45 can accommodate lead and the like to freely adjust buoyancy.

In addition, the battery pocket 41 provided in the power supply unit 40 includes a plurality of dogs 44 to accommodate a plurality of batteries 44 as shown in FIG. 7 in consideration of conditions of the place and diving time. In this case, the battery pocket 44 and the battery pocket 44 are connected by using the connection belt 42a.

In addition, when a plurality of battery pockets 41 are attached to the power supply unit 40, the batteries 44 stored in the battery pockets 41 are interconnected by using a connector, thereby smoothly supplying power. Can be achieved.

Therefore, it is possible to freely move the position of the diver who performs leisure activities and underwater exploration through the propulsion force in the water through the propulsion force generator 3 and buoyancy control through the air pocket 60 and the auxiliary pocket 45. will be.

According to the configuration of the present invention as described above, the propulsion force in the water can be obtained through the propulsion force generator installed on the upper portion of the oxygen tank, it is possible to explore underwater in a large area.

In addition, by separating the power unit from the driving force generator, it is possible to achieve a lighter weight of the product, it is possible to reduce the inconvenience of having to wear a separate buoyancy control belt for buoyancy control.

In addition, by providing a buoyancy generating means capable of freely adjusting the buoyancy inside or on one side of the power supply, it is easy to move the position in the water.

Therefore, it is a very useful design, such as being able to carry out leisure activities and underwater exploration, regardless of the weight of the equipment necessary for diving, the conditions of the skin scuba diving site according to the season, the dive time, and the like.

Claims (3)

A motor 30 having a driving shaft 31 on one side and fixedly installed on the upper portion of the oxygen tank 10 through the fixing device 20; A screw 32 installed axially coupled to the drive shaft 31 of the motor 30; Fastening belts 42 are provided at both sides of the body to be worn by a diver, and at the bottom, a power supply unit 40 having a battery pocket 41 in which a battery 44 for transmitting power to the motor 20 is stored. )Wow; A control unit 50 for controlling power supply and driving speed to the motor 30 through a connector 51; An air pocket 60 installed inside or on one side of the battery pocket 41 and expanding by oxygen supplied from an oxygen tank 10; Underwater propulsion device, characterized in that consisting of a supply pipe 70 for supplying oxygen from the oxygen tank (10) to the air pocket (60) through the contact terminal (73) formed on both ends. The underwater propulsion device according to claim 1, wherein the air pocket (60) is provided with a check valve (72) to prevent backflow of oxygen. The underwater propulsion device according to claim 1, wherein the auxiliary pockets for buoyancy control are attached to both sides of the battery pockets (41).