KR20230027660A - Underwater Propulsion Device - Google Patents

Abstract

The present invention relates to an underwater camera device comprising: a cylindrical housing having an internal space; a cover coupled to one longitudinal end of the housing and having a transparent window provided on a radial center side thereof; a camera disposed in the internal space of the housing to capture images through the transparent window; and a battery disposed in the internal space of the housing to supply power to the camera and a light. The housing includes a front housing and a rear housing in a longitudinal direction. The front housing has a front end surface to which the cover is coupled, and a rear end surface to which the rear housing is coupled, which are opened. The front housing and the rear housing are coupled to each other by screws respectively formed around ends thereof coupled to each other. The cover and the front housing are coupled to each other by a screw formed around the circumference of the cover and a screw formed around the front end surface of the front housing. Of the screws formed around the ends of the front housing and the rear housing that are coupled joined to each other, one is a male screw formed on the outer circumference thereof, and the other is a female screen formed on the inner circumference thereof. An end of the female screw has a mounting groove formed thereon to be radially outward and deeper than a screw ridge. On the mounting groove, an O-ring is mounted that is compressed and brought into close contact therewith by an end of the male screw when the front housing and rear housing are screwed to each other. Therefore, the underwater camera device makes it easier to operate and maintain the camera, the light, and the battery.

Description

Underwater propulsion device {Underwater Propulsion Device}

The present invention relates to an underwater propeller, and more specifically, to an underwater propeller equipped with a camera that is worn or held by a diver underwater and takes pictures while moving underwater.

In scuba diving, marine exploration, marine ecology survey, or maintenance of underwater facilities, an underwater camera device for photographing aquatic ecology, underwater activities, or underwater facilities is widely used.

Such an underwater camera device should have good watertightness so that water does not penetrate into the camera device at high water pressure in the water, and it is preferable to have a structure that receives less water resistance at high speed when used with an underwater propeller such as an underwater scooter. do.

As an example of an underwater camera device, there is an invention related to an underwater camera device for deep sea disclosed in Unexamined Patent Publication No. 10-2017-0019570 (Document 1).

The underwater camera device disclosed in Document 1 has a structure in which a camera, a light, and a battery are disposed inside a cylindrical frame having open front and rear ends, and closed with a cover on the open front and rear ends.

An O-ring is disposed in the circumferential direction as a sealing member between the cover and the frame closing the front and rear ends, and the seal is sealed by fixing the gap between the cover and the frame with bolts disposed in the axial direction. Further, a through hole is formed in the cover at the rear end, a cable is extended outward from the through hole, and a switch is disposed outside the cover at the rear end.

In this structure, the O-rings arranged in the circumferential direction are pressed by the fastening force of the bolt between the cover and the frame to form a watertight seal between the cover and the frame, so that despite the high water pressure in the deep sea, water does not flow into the internal space where the camera or the like is placed. do not infiltrate.

However, since it is difficult to separate the cover and the frame in a structure in which the cover and the frame are fastened with bolts, there is a problem in that it is difficult and cumbersome to open the cover for battery replacement or separation of the camera.

In addition, although a high level of watertightness is achieved between the cover and the frame, since a through hole is formed in the cover at the rear end for cable connection to the switch, it is difficult to achieve watertightness in this through hole.

Document 1: Patent Publication No. 10-2017-0019570 Document 2: Patent Publication No. 10-1520961

In view of the problems of the prior art, the present invention is to provide an underwater propeller equipped with an underwater camera having a structure having watertightness to withstand high water pressure in the water.

In particular, the present invention provides an underwater propeller equipped with an underwater camera having a structure that is easy to disassemble and assemble while having high watertightness and easy maintenance and replacement of a camera, light or battery disposed in the inner space of the underwater camera device is to do

In addition, the present invention is to provide a level propeller equipped with an underwater camera having a structure capable of minimizing resistance due to contact with water during movement in water.

In addition, the present invention is to provide an underwater propeller equipped with an underwater camera having a structure in which most of the devices for operating the device are disposed in a watertight inner space and the structure extending to the outside is minimized to increase watertightness.

The above object of the present invention is a housing of a cylindrical shape in which an inner space is formed; a cover coupled to one end of the longitudinal direction of the housing and provided with a transparent window at a central side in the radial direction; a camera disposed in the space inside the housing and capturing an image through a transparent window; and a battery disposed in the space inside the housing and supplying power to the camera and lighting.

The underwater propeller of the present invention,

The housing includes a front housing and a rear housing in its longitudinal direction, and the front housing has a front end surface coupled to the cover and a rear end surface coupled to the rear housing are open, and around ends of the front housing and the rear housing coupled to each other, respectively. The cover and the front housing are coupled to each other by a screw formed around the cover and a screw formed around the front end surface of the front housing,

The screws formed around the ends of the front housing and the rear housing that are coupled to each other are male screws formed on the outer circumference, and the other is a female screw formed on the inner circumference. A deeper mounting groove is formed, and an O-ring is mounted in the mounting groove, which is compressed by the end portion of the male screw and brought into close contact when the front housing and the rear housing are screwed together.

According to the configuration of the present invention, in assembling an underwater propeller with a camera, the assembly of the underwater camera device is achieved by screwing the cover and the front housing by rotating them relative to each other and screwing the front housing and the rear housing by rotating them relative to each other. It is done.

In particular, during the assembly process of relatively rotating the cover, the front housing, and the rear housing, the O-ring disposed in the mounting groove of the screw coupling part is compressed and the fastening part between the cover, the front housing, and the rear housing is watertight. Watertightness of the joint can be achieved by a simple operation of rotating the elements constituting the device relative to each other without any special measures.

In this way, since the underwater camera device can be easily disassembled and assembled, operation and maintenance of various functional elements of the underwater camera device, that is, a camera, lighting, and a battery, are facilitated.

1 is a longitudinal sectional view of a camera part in an underwater propeller according to a first embodiment of the present invention.
2 and 3 are enlarged views of circles 'A' and 'B' in FIG. 1 .
4 is a perspective view of an underwater propeller having a camera provided at the front end according to a second embodiment of the present invention.

Hereinafter, the specific configuration and operation of an underwater propeller according to embodiments of the present invention will be described as specific details for carrying out the present invention with reference to the accompanying drawings.

1 to 3 show a camera device for an underwater propeller according to a first embodiment of the present invention. The camera device of the first embodiment has a configuration that can be used alone without being combined with other devices, and FIG. The underwater camera device of the second embodiment shown in is used by being attached to the tip of an underwater propulsion device such as an underwater scooter.

First, with reference to FIG. 1, the overall configuration of the underwater camera device of the first embodiment will be described.

The underwater camera device of the first embodiment is coupled to front and rear housings 10 and 20 having a cylindrical shape having a space therein, one end in the longitudinal direction of the front housing 10, and a transparent window ( 35) is fixed to the cover 30, a camera 51 disposed in the space inside the front housing 10 and taking images through the transparent window 35, and spaced apart from the camera 51 in the space inside the front housing LED lights 60 that are disposed and irradiate light through the transparent window 36; A mounting frame 40 disposed in the space inside the front housing 10 to which the camera and LED lights are mounted, a battery 50 disposed in the space inside the rear housing 20 and supplying power to the LED light 60, and It is configured to include reed switches 65 and 66 for turning on and off the power of the LED light 60.

The front housing 10 and the rear housing 20 are formed separately from each other and coupled to each other in the longitudinal direction to form a housing or casing of an underwater camera device.

Throughout this specification, 'longitudinal direction' means the direction of the axis of the cylindrical shape of the housing, 'front' means the side to which the cover 30 is coupled in the front housing 10 in the longitudinal direction, and 'rear' means It is used to mean the opposite side in the length direction.

The front housing 10 has both ends open in the longitudinal direction, and the cover 30 is screwed to the front end and the rear housing 20 is screwed to the rear end.

The front end of the rear housing 20 is open and screwed to the front housing 10, and the rear end is closed. Thus, the inner space surrounded by the cover 30, the front housing 20, and the rear housing 20 is sealed against the outside.

A structure in which the front housing 10 and the rear housing 20 are screwed together will be described with reference to FIG. 2 which is an enlarged view of the coupling part A.

A female screw 15 is formed on the inner circumferential surface at the rear end of the front housing 10 and a male screw 21 is formed on the outer circumferential surface at the front end of the rear housing 20 . These female screws 15 and male screws 21 are coupled to each other so that the front housing 10 and the rear housing 20 are screwed together.

In the rear housing 20, at the terminal end of the female screw 15, a mounting groove 22 extending deeper in the radial direction than the threaded bone of the female screw 15 is formed. In addition, at a position corresponding to the mounting groove 22 of the rear housing 20 in the front housing 10, that is, at the end of the female screw 15, a female screw is not formed and a flat mounting surface 17 is provided. .

An O-ring 23 is disposed in the mounting groove 22 of the rear housing, so that the O-ring 23 is placed in the mounting groove 22 of the rear housing 20 before the front housing 10 and the rear housing 20 are fastened. It is mounted on the rear housing 20 in this state.

The O-ring 23 functions as a sealing member forming a watertight seal between the front housing 10 and the rear housing 20, and the female screw of the front housing 10 ( 15) has a diameter that lies outward in the diametrical direction beyond the threaded bone.

When the front housing 10 is screwed into the rear housing 20, the mounting surface 17 of the front housing 10 presses the O-ring 23 while contacting the O-ring 23, and the O-ring 23 moves in the radial direction. It is deformed and compressed under pressure inwardly.

The corner 18 between the front end of the front housing 10 and the mounting surface 17 is machined in a round shape, so that the front end of the front housing 10 and the rear housing 20 are screwed together with an O-ring ( 23), the round edge 18 contacts the O-ring 23, so that the O-ring 23 does not suffer damage such as scratches and receives a pressing force radially inward from the mounting surface 17.

When the front housing 10 and the rear housing 20 are completely fastened, the O-ring 23 is in the space surrounded by the mounting surface 17 of the front housing 10 and the mounting groove 22 of the rear housing 20. remain compressed. Thus, the screwed parts of the rear housing 20 and the front housing 10 are watertight from the outside by the O-ring 23 .

On the other hand, in this embodiment, the female screw 15 and the mounting surface 17 are formed in the front housing 10, and the male screw 21 and the mounting groove 22 are formed in the rear housing 20, but conversely , Male screws and mounting grooves are formed in the front housing 10, O-rings are disposed, and female screws and mounting surfaces may be formed in the rear housing 20.

Next, a structure in which the cover 30 and the front housing 10 are screwed together will be described with reference to FIG. 3 which is an enlarged view of the coupling portion B.

The cover 10 includes a front portion 31 extending in a plane perpendicular to the longitudinal direction and a rear portion 32 extending rearward from an inner end of the front portion and formed in a cylindrical shape parallel to the longitudinal direction. A circular transparent window 35 is fixedly coupled to the inside of the rear portion 32 in the radial direction.

A male screw 33 is formed on the outer circumference of the rear portion 32, and a female screw 11 is formed on the inner circumference of the front end of the front housing 10, so that the screw of the male screw 33 and the female screw 11 The cover 30 is coupled to the front housing 10 by coupling.

At the end of the female screw 11 of the front housing, a mounting groove 12 extending radially outward from the screw bone of the female screw is provided, and an O-ring 14 is disposed therein, and the end of the male screw 33 of the cover is It is formed with a flat mounting surface 34 .

The O-ring 23 functions as a sealing member between the front housing 10 and the cover 30, similarly to the O-ring 14 forming a watertight seal between the front housing 10 and the rear housing 20, and the front housing and the cover. It has a diameter that is placed radially inward beyond the screw bone of the female screw 33 of the cover in a state where it is not subjected to pressing force before fastening.

When the cover 30 and the front housing 10 are screwed together, the mounting surface 34 of the cover 30 contacts the O-ring 14 and the round edge 37 of the mounting surface pushes the O-ring 14 outward in the radial direction. to be pressured by

When the cover 30 is completely screwed into the front housing 10, the mounting surface 34 of the cover presses the O-ring 14 seated in the mounting groove 12 toward the bottom of the mounting groove, that is, radially outward. As a result, the O-ring 14 is deformed while being pressed so that the screwed portion between the cover 30 and the front housing 10 becomes watertight.

On the other hand, since the sealing material 36 is provided on the rear end surface of the front part 31 of the cover 30, when the cover 30 is coupled to the front housing 10, the sealing material 36 is applied to the front end surface of the front housing 10. It is pressed between the front part 31 of the cover 30 by the fastening force of the screw coupling, and watertightness between the cover and the front housing is achieved.

In this way, watertightness of the coupling portion between the cover 30 and the front housing 10 is achieved by the O-ring 14 and the sealing material 36 .

Meanwhile, the battery 50 is disposed in a space inside the rear housing 20, and the camera 51 and the LED light 60 are disposed in a space formed by the cover 30 and the front housing 10. The camera 51 and the LED light 60 are mounted on a mounting frame 40 placed between the battery 50 and the cover 30.

The mounting frame 40 is provided with a first portion 41 that is open to the front side and extends rearward at its radial center, to which a camera is mounted, and extends radially outward from the first portion 41. A second part 42 is provided, on which LED lights 60 are arranged.

A third portion 43 protruding forward from the outer end of the second portion 42 is provided, and the third portion 43 is provided with a sealing material 46 therebetween, and the rear portion 32 and It is formed in contact with the transparent window 35. A fourth portion 44 extending rearward from the third portion 43 and abutting the inner surface of the front housing 10 is formed, and extends radially inward from the rear end of the fourth portion 44 to form a battery 50 ) and a fifth part 45 in contact with is formed.

According to the configuration of this mounting frame 40, the third part 43 abuts the cover 30, the fourth part 44 abuts the inner surface of the front housing 10, and the fifth part 45 In contact with the battery 50, the mounting frame 40 is disposed in the space inside the front and rear housings 10 and 20.

As a result, the mounting frame 40 on which the camera 51 and the LED light 60 are mounted is fixedly disposed in the inner space of the underwater camera device without a separate fixing means.

In the fully assembled state of the underwater camera device of this embodiment, handles 70 for a diver to hold the underwater camera device are mounted on the outer surfaces of the front housing 10 and the rear housing 20.

A through hole 71 is formed in the handle 70, and a band (not shown) surrounding the rear housing 20 and the front housing 10 is mounted through the through hole 71, and the handle 70 is for underwater use. mounted on the camera device.

A reed switch knob 66 is provided on the outer surface of the handle 70, and a reed switch body 65 is attached to the inner surface of the front housing 10. The reed switch body 65 and the reed switch knob 66 form a reed switch that turns on and off the LED light 60.

The reed switch knob 66 is disposed at a position corresponding to the position of the reed switch body 65 fixed inside the front housing 10, so that the reed switch knob 66 is moved forward and backward by the reed switch body. The switching operation of (65) is made. A cable 61 connecting power is connected to each LED light 53 from the reed switch body 65 .

In the reed switch body 65, the contact is short-circuited by the magnetic force of the magnet according to the operation of the reed switch knob 66 including the magnet. Since the configuration of such a reed switch is well known, it will not be described in detail.

Meanwhile, in this embodiment, the reed switch knob 66 is fixed to the handle 70 and disposed close to the outer surface of the front housing 10, but may be directly fixed to the front housing 10.

The disassembling and assembling operation of the underwater camera device of the first embodiment described above will be described.

The front housing 10 and the cover 30 are coupled to each other. This coupling is performed while the screws 11 and 33 of the front housing 10 and the cover 30 are fastened to each other by simply rotating the front housing 10 and the cover 30 relative to each other. In particular, the O-ring 14 disposed in the mounting groove 12 of the front housing 10 and the sealing material 36 attached to the cover 30 are pressed by this screwing operation, and thus the front housing 10 and the cover (30) between the watertight is achieved.

The mounting frame 40 to which the camera 51 and the LED light 60 are mounted is inserted from the rear of the front housing 10 and is disposed in the inner space of the cover 30 and the front housing 10, and the cable (61) is connected to the reed switch body (65). The battery 50 is disposed in the inner space of the rear housing 10, and a cable (not shown) connected from the battery 60 to the reed switch body 65 and the LED light 53 is connected.

Subsequently, the rear housing 20 and the front housing 10 are coupled. The coupling between the rear housing 20 and the front housing 10 is performed by screw fastening of the screws 15 and 21 only by relatively rotating the rear housing 20 and the front housing 10 . In addition, watertightness between the rear housing 20 and the front housing 10 is achieved by pressing and deforming the O-ring 23 disposed in the mounting groove 22 of the rear housing 20 by screwing.

Next, the handle 70 is coupled to the outer surfaces of the rear housing 20 and the front housing 10 by filling a band (not shown). The position of the knob 70 is adjusted so that the reed switch knob 66 faces the reed switch body 65.

This completes the assembly of the underwater camera device of the first embodiment. The camera 51 may be put into an operating state before assembly, or may be operated after assembly by a separate remote control or the like.

In order to take out the camera 51 to view a captured image after using the underwater camera device or to take out the battery 50 to charge the battery, the front housing 10 and the rear housing 20 are separated from each other.

By rotating the front housing 10 and the rear housing 20 relative to each other, the open ends of the front housing 10 and the rear housing 20 are exposed, and the battery 50 can be withdrawn from the rear housing 20, The mounting frame 40 can be removed from the front housing 10 .

In particular, since the mounting frame 40 is not directly fastened or fixed to other elements, the camera 51 can be installed simply by separating the front housing 10 and the rear housing 20 from each other and disconnecting the cables. I can easily withdraw the mounting frame 40 on which the LED light 60 is mounted.

In this way, the underwater camera device of the present embodiment is easy to disassemble and assemble, and main functional parts such as a camera, light, and battery can be easily separated for maintenance work, as well as watertightness of the device during assembly. No special action is required for

Next, the configuration and operation of the second embodiment of the present invention will be described with reference to FIG. 4 .

4 shows an underwater propeller called an underwater scooter.

The underwater propeller 200 has a front part 210 in which a battery is built in and an operation switch 250 is attached, a rear part 220 in which a drive motor is built in, and a rear part 220 by coupling brackets 220. It consists of a screw housing 230 attached to. A screw 240 is coupled to a shaft 241 extending from the drive motor of the rear part 220 to the inside of the screw housing 230.

The underwater propeller 200 operates a driving motor using a built-in battery as a power source, and the screw 240 is rotated by the driving motor to suck water from the front of the screw housing 230 and eject it to the rear.

The underwater camera device 100 according to the second embodiment of the present invention is attached to the front end of the underwater propeller 200.

All configurations of the camera device 100 of the second embodiment are the same as those of the underwater camera device of the first embodiment except for the rear housing 20'. The rear housing 20' is different from the camera device of the first embodiment in that it is fixed to the front end of the underwater propeller 200 by a fixing means such as a bolt or welding.

In this way, the camera device 100 of the second embodiment is attached to the underwater propulsion unit 200, so that when the diver grips the underwater propulsion unit 200 or moves or works while wearing the back, the camera device 100 shoots the front or emits illumination light to the front with lighting. used to investigate

The embodiments of the present invention have been described above, and these embodiments are only examples, and the present invention is capable of various modifications and changes and addition of configurations within the scope described in the claims, and such modifications, changes and All additions of constitution are within the scope of the claims.

10: front housing 20: rear housing
30: cover 40: mounting frame
50: battery

Claims (4)

A cylindrical housing in which an internal space is formed; a cover coupled to one end of the housing in the longitudinal direction and provided with a transparent window at a central side in the radial direction; a camera disposed in the space inside the housing and capturing an image through a transparent window; And an underwater camera device including a battery disposed in the space inside the housing and supplying power to the camera and lighting,
The housing includes a front housing and a rear housing in its longitudinal direction, and the front housing has a front end surface coupled to the cover and a rear end surface coupled to the rear housing are open, and around ends of the front housing and the rear housing coupled to each other, respectively. The cover and the front housing are coupled to each other by a screw formed around the cover and a screw formed around the front surface of the front housing,
The screws formed around the ends of the front housing and the rear housing that are coupled to each other, one is a male screw formed on the outer circumference and the other is a female screw formed on the inner circumference, and the end of the female screw has a threaded thread outward in the radial direction An underwater camera device, wherein a deeper mounting groove is formed, and an O-ring is mounted in the mounting groove to be compressed and brought into close contact with the end portion of the male screw when the front housing and the rear housing are screwed together. The method of claim 1,
An underwater camera device wherein a flat mounting surface facing the mounting groove and contacting the O-ring is formed at the end of the male screw. The method of claim 2,
The screws formed around the ends of the front housing and the cover that are coupled to each other, one is a male screw formed on the outer circumference and the other is a female screw formed on the inner circumference, and at the end of the female screw, there is a screw thread formed on the outside in the radial direction than the screw bone. An underwater camera device, wherein a deep mounting groove is formed, and an O-ring is mounted in the mounting groove to be compressed by an end portion of the male screw and brought into close contact when the front housing and the rear housing are screwed together. An underwater propeller wherein the underwater camera device according to claims 1 to 3 is attached to the front end.

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