KR101974896B1 - Underwater lantern with anti-rotation structure - Google Patents

Abstract

The present invention relates to an underwater lantern with an anti-rotation structure of a lens that a lens housing composed of a plurality of lenses through a guide member flows upward and downward according to rotation of a rotary body and a lens housing flows upward and downward without rotation due to a guide member. A lens housing may flow upward and downward without rotation due to a guide member since each of the plurality of insertion units and guide member insertion holes are formed at the lens housing and a case and the guides holes and guide member insertion holes are inserted into and fixed to the guide member.

Description

[0001] The present invention relates to an underwater lantern with anti-rotation structure,

[0001] The present invention relates to an underwater lantern having a lens rotation preventing structure, and more particularly, to a lens housing in which a plurality of lenses are formed through a guide member, the lens housing moving upward and downward as the rotating body rotates, And a rotation preventing structure of a lens that allows the liquid to flow upward and downward without rotating.

In general, underwater diving, underwater work, underwater shooting and scuba diving use underwater lanterns to ensure visibility in the water.

In general, in such an underwater lantern, a case, a lens unit and a light emitting unit formed inside the case, a battery for supplying power to the light emitting unit, a PCB module connected to the battery and controlling the light emitting unit according to a command, A protection plate for blocking the inflow of water into the case and protecting the lens unit, and a switch unit for controlling the PCB module in a one-touch manner.

First of all, according to a conventional technology, a same applicant as the present application filed by the same applicant, registration No. 10-1572607 (especially) a protective plate is coupled to the front surface, and a first magnet is formed on both sides or an outer circumference, A fixing part having a lens moving part and a lower part of the lens moving part to constitute a light emitting device and a fixing part for fixing the second magnet to the outside of the fixing part, A front portion constituted by a correspondingly configured flow portion; A body coupled to the front portion and having a battery inserted therein; And a lens configured to move the lens flow unit in accordance with the flow of the flow unit, wherein a thread is formed on an outer periphery of the fixing unit and an inner periphery of the flow unit, And the lens flow portion is rotated when the flow portion is rotated, and the lens flow portion is rotated when the flow portion is rotated, Wherein a packing is formed on the outer circumference of the flow portion to constitute the second magnet so as to prevent the second magnet from being exposed to water and being corroded. Lt; / RTI >

According to the above-described conventional technique, a first magnet is formed in a lens moving portion to which a lens is connected, and a second magnet is formed in the moving portion. When the rotating portion is rotated, the lens moving portion is rotated So that it can flow.

The light emitting device and the lens are integrally formed on the center line of the underwater lantern so that the light emitted from the light emitting device and the lens can be emitted to the user The plurality of lenses corresponding to the plurality of light emitting devices are rotated and flow in accordance with the rotation of the lens flow unit, There is a problem that the light emitted from each of the light emitting devices can not shine uniformly at the target point during the flow.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a lens housing and a case in which a plurality of inserting portions and guide member inserting holes are formed, And a lens rotation preventing structure for allowing the lens housing to flow upward and downward without being rotated by the guide member. The present invention has been accomplished on the basis of these considerations.

The present invention relates to a case 100 in which a housing space is formed and a protective plate 110 is formed on an upper portion of the case 100 and a first magnet 210 is formed on the outer periphery of the case 100, A plurality of lamps 310 corresponding to the plurality of lenses 220 are formed on the lower portion of the lens housing 200. The lens housing 200 includes a plurality of lamps 220, A light emitting portion 300 having a wiring hole 320 penetrating the upper portion and the lower portion of the case 100 so as to be rotatable about an outer periphery of the case 100, A magnet unit 500 that flows according to the rotation of the rotating body 400 and flows the lens housing 200 constituting the first magnet 210 and a battery unit 600, a printed circuit board 700 connected to the battery unit 600, a switch for controlling the printed circuit board 700, A screw magnet 410 is formed on the inner periphery of the rotating body 400 and a second magnet 510 is inserted on the outer periphery of the magnet part 500. The screw magnet 410 A plurality of guide holes 230 are formed in an upper portion of the lens housing 200 so as to pass from the upper side to the lower side of the lens housing 200. Inside the case 100, A plurality of guide member insertion holes 120 corresponding to the plurality of guide holes 230 are formed and guide members g formed to be elongated upward and downward are inserted into the plurality of guide holes 230, One side of the guide member g inserted into the guide hole 230 is inserted and fixed in a guide member insertion hole 120 formed inside the case 100 so that the magnet part 500 is inserted into the rotation body 400, and the lens housing 200 is coupled to the rotating body 400 so as to rotate upwardly and downwardly in accordance with the flow of the magnet unit 500 flowing upward and downward without rotating by the guide member g, So as to flow downward.

According to the underwater lantern having the anti-rotation structure of the lens according to the present invention, since the lens housing rotates upward and downward without rotating, even when the user rotates the rotating body and performs the zoom-in or zoom- Is a useful invention for allowing the light emitted from the light source to illuminate the target point uniformly.

1 is a cross-sectional view showing a preferred embodiment of the present invention
FIG. 2 is a plan view (A - A 'in FIG. 1) showing the lens housing of the structure of FIG.
Fig. 3 is an enlarged view showing a in Fig. 1
FIG. 4 is a cross-sectional view showing a guide member inserted and fixed in a guide hole of a lens housing in the configuration of an underwater lantern according to the present invention
5 is a plan view (B-B 'in Fig. 4) showing the lens housing of the structure of Fig. 4;
6 is an exploded view showing a preferred embodiment of the present invention.
7 is an operational state diagram showing a preferred embodiment of the present invention

The present invention relates to a lens barrel in which a lens housing in which a plurality of lenses are formed through a guide member flows upward and downward as the rotating body rotates, Structure is provided.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

1 to 8, a case 100 in which a receiving space is formed and a protective plate 110 is formed on the upper side of the case 100, A lens housing 200 in which a first magnet 210 is formed on the outer periphery of the lens housing 200 and a plurality of lenses 220 are formed on the outer periphery of the lens housing 200, A light emitting unit 300 including a plurality of lamps 310 corresponding to the plurality of lamps 220 and having wiring holes 320 penetrating through the lamps 310 at one side and upper and lower ends of the lamps 310; A rotating body 400 configured to be rotatable along the outer circumference of the case 100 and a lens housing 200 configured to rotate along the rotation of the rotating body 400 and configured by the first magnet 210, A battery unit 600 for supplying power to the battery unit 600, A underwater lantern comprising a printed circuit board (700) and a switch unit (800) controlling the printed circuit board (700), wherein a screw thread (410) is formed on the inner periphery of the rotating body (400) And a thread 520 is formed on the outer circumference of the lens housing 200 so as to be engaged with the thread 410 on the outer periphery of the lens housing 200. The upper portion of the lens housing 200 is passed through from the upper side to the lower side And a plurality of guide member insertion holes 120 corresponding to the plurality of guide holes 230 are formed on the inner side of the case 100. The plurality of guide holes 230, And a guide member g inserted into the guide hole 230 is inserted into the guide hole 230 formed in the case 100. The guide member g is inserted into the guide hole 230, And the magnet part 500 is inserted into the hole 120 of the rotating body 400, And the lens housing 200 rotates inside the rotating body 400 in accordance with the rotation of the rotating body 400. The lens housing 200 rotates in an upward direction And is configured to flow upward and downward without rotating by the guide member (g).

First, the case 100 includes a lens housing 200, a light emitting unit 300, a battery unit 600, a printed circuit board 700, and a switch unit 800, as shown in FIG. 1, And a protection plate 110 for blocking the inflow of water into the inside of the case 100 and protecting the lens 220 formed in the lens housing 200, do.

1 and 2, the lens housing 200 is configured inside the case 100, and a first magnet 210 is formed on the outer periphery of the lens housing 200, and a plurality of lenses 220 are formed on the upper portion of the lens housing 200.

Here, the first magnet 210 may be formed around the outer circumference or the inner circumference of the lens housing 200, or a plurality of the first magnets 210 may be spaced apart from each other by a predetermined distance. In the present invention, A plurality of lenses are inserted and spaced apart from each other at a predetermined interval along the outer circumference of the lens housing 200. This has the effect of reducing manufacturing cost.

The second magnet 510 may be formed around the outer circumference or the inner circumference of the magnet unit 500, or may be configured to have a plurality of the first and second magnets 500, It is preferable that it is configured to correspond to the first magnet 210.

It is preferable that the lens 220 is composed of a plurality of lenses and that the lens 220 has the same number as the lamp 310 of the light emitting unit 300 to be described below.

As shown in FIG. 1, the light emitting unit 300 includes a plurality of lamps 310 disposed at the lower portion of the lens housing 200 and corresponding to the plurality of lenses 220, A wiring hole 320 penetrating the upper and lower portions is formed.

The wiring hole 320 serves to connect the wiring of the printed circuit board 700 and the battery unit 600 to the light emitting unit 300.

The rotating body 400 is configured to surround the outer circumference of the case 100 and to rotate along the outer circumference of the case 100.

Here, the rotating body 400 is configured to rotate at an original position as shown in FIGS.

1 and 7, the magnet unit 500 flows according to the rotation of the rotating body 400 and flows the lens housing 200 in which the first magnet 210 is formed.

That is, the magnet part 500 is formed on one side of the rotating body 400 and flows upward and downward according to the rotation of the rotating body 400, (200) to flow upward and downward.

The battery unit 600, the printed circuit board 700, and the switch unit 800 are components used in conventional underwater lanterns, and a detailed description thereof will be omitted.

1 and 3, a screw thread 410 is formed on the inner circumference of the rotating body 400 and a second magnet 510 is disposed on the outer circumference of the magnet unit 500 A thread 520 is formed to be engaged with the thread 410 on the outer periphery.

3 and 7, a screw thread 410 is formed on the inner circumference of the rotating body 400 and a second magnet 510 is inserted on the outer circumference of the magnet part 500, The magnetic body 500 is coupled to the inside of the rotating body 400 by forming the thread 520 to be engaged with the thread 410. When the magnet body 500 is rotated according to the rotation of the rotating body 400, Can flow upward and downward.

As shown in FIGS. 4, 5 and 6, a plurality of guide holes 230 are formed in the upper portion of the lens housing 200 so as to pass from the upper side to the lower side. Inside the case 100, A plurality of guide member insertion holes 120 corresponding to the guide holes 230 are formed in the guide holes 230. Guide members g are formed in the guide holes 230, 230 are inserted and fixed in a guide member insertion hole 120 formed on the inner side of the case 100. [

That is, the lens housing 200 rotates inside the rotating body 400 according to the rotation of the rotating body 400 and flows upward and downward according to the flow of the magnet unit 500 flowing upward and downward And is configured to flow upward and downward without rotating by the guide member (g).

In other words, while the lens housing 200 is not rotated by the guide member g but is moved upward and downward, while the user rotates the rotating body 400 and performs the zoom-in or zoom-out function So that the light emitted from the lamp 310 can uniformly illuminate the target point.

According to the underwater lantern having the anti-rotation structure of the lens according to the present invention, since the lens housing rotates upward and downward without rotating, even when the user rotates the rotating body and performs the zoom-in or zoom- Is a useful invention for allowing the light emitted from the light source to illuminate the target point uniformly.

100: Case
110: Shield plate
120: guide member insertion hole
200: lens housing
210: first magnet 220: lens
230: Guide hole
300:
310: lamp 320: wiring hole
400: rotating body
410: thread
500: magnet portion
510: second magnet 520: threaded
600: Battery section
700: printed circuit board
800: Switch part
g: guide member

Claims (1)

A casing 100 in which a receiving space is formed and a protective plate 110 is formed on an upper portion of the case 100 and a first magnet 210 is formed on the outer circumference of the case 100, A plurality of lamps 310 corresponding to the plurality of lenses 220 are formed on the lower portion of the lens housing 200. The lamp housing 310 includes upper and lower A rotating body 400 configured to surround the outer circumference of the case 100 and configured to be rotatable around the outer circumference of the case 100; A magnet unit 500 that flows according to the rotation of the rotary body 400 and flows the lens housing 200 constituting the first magnet 210, a battery unit 600 that supplies power, A printed circuit board 700 connected to the battery unit 600 and a switch unit 800 for controlling the printed circuit board 700 Lantern in hand,
A thread 410 is formed on the inner circumference of the rotating body 400,
A thread 520 is formed on the outer circumference of the magnet unit 500 so that the second magnet 510 is inserted thereinto and is engaged with the thread 410 on the outer circumference.
A plurality of guide holes 230 are formed in the upper portion of the lens housing 200 so as to pass from the upper side to the lower side,
A plurality of guide member insertion holes 120 corresponding to the plurality of guide holes 230 are formed inside the case 100,
A guide member g is inserted into each of the guide holes 230 so as to extend upward and downward and one side of the guide member g inserted into the guide hole 230 is inserted into the inside of the case 100 Is inserted and fixed in the guide member insertion hole 120 formed in the guide member insertion hole 120,
The magnet unit 500 is coupled to the inside of the rotating body 400. The lens housing 200 rotates inside the rotating body 400 according to the rotation of the rotating body 400, Is configured to flow upward and downward in accordance with the flow of the magnet part (500) flowing downward, and to flow upward and downward without rotating by the guide member (g) The lantern.

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